" Stop Asian Hate!": Refining Detection of Anti-Asian Hate Speech During the COVID-19 Pandemic.
Nghiem, H.; and Morstatter, F.
arXiv preprint arXiv:2112.02265. 2021.
link
bibtex
@article{nghiem2021stop,
title={" Stop Asian Hate!": Refining Detection of Anti-Asian Hate Speech During the COVID-19 Pandemic},
author={Nghiem, Huy and Morstatter, Fred},
journal={arXiv preprint arXiv:2112.02265},
year={2021}
}
"Don't quote me on that": Finding Mixtures of Sources in News Articles.
Spangher, A.; Peng, N.; May, J.; and Ferrara, E.
arXiv preprint arXiv:2104.09656. 2021.
link
bibtex
@article{spangher2021don,
title={"Don't quote me on that": Finding Mixtures of Sources in News Articles},
author={Spangher, Alexander and Peng, Nanyun and May, Jonathan and Ferrara, Emilio},
journal={arXiv preprint arXiv:2104.09656},
year={2021}
}
#JusticeForGeorgeFloyd: How Instagram Facilitated the 2020 Black Lives Matter Protests.
Chang, H. H.; Richardson, A.; and Ferrara, E.
. 2021.
link
bibtex
@article{chang2021justiceforgeorgefloyd,
title={\#JusticeForGeorgeFloyd: How Instagram Facilitated the 2020 Black Lives Matter Protests},
author={Chang, Ho-Chun Herbert and Richardson, Allissa and Ferrara, Emilio},
year={2021},
publisher={SocArXiv}
}
2021 SciTech and Friends Research Symposium.
Hayes, C.; Kulkarni, C.; Milman, E. D.; Okunloye, O.; Olshansky, A.; Oruche, R.; Kee, K.; Moreira, P. C. S.; Vardeman, C.; Coleman, T.; Do, T. M. A.; Jain, A.; Krawczuk, P.; Lam, K.; Nagarkar, S.; Papadimitriou, G.; Subramanya, S.; White, R.; Whitcup, W.; Ferreira da Silva, R.; and Deelman, E.
May 2021.
![2021 SciTech and Friends Research Symposium [link]](//bibbase.org/img/filetypes/link.svg "Paper")
Paper
doi
link
bibtex
@Misc{ scitech2021symposium,
Author = {Hayes, Cassandra and Kulkarni, Chaitra and Milman, Eric D.
and Okunloye, Oluwabusayo and Olshansky, Alex and Oruche,
Roland and Kee, Kerk and Moreira, Priscila C. S. and
Vardeman, Charles and Coleman, Tain\=a and Do, Tu Mai Anh
and Jain, Aditi and Krawczuk, Patrycja and Lam, Kelsie and
Nagarkar, Shubham and Papadimitriou, George and Subramanya,
Srujana and White, Rebecca and Whitcup, Wendy and Ferreira
da Silva, Rafael and Deelman, Ewa},
Title = {{2021 SciTech and Friends Research Symposium}},
Month = {May},
Year = {2021},
Publisher = {Zenodo},
DOI = {10.5281/zenodo.4847543},
URL = {https://doi.org/10.5281/zenodo.4847543}
}
3-Regular 3-XORSAT Planted Solutions Benchmark of Classical and Quantum Heuristic Optimizers.
Kowalsky, M.; Albash, T.; Hen, I.; and Lidar, D. A.
arXiv e-prints,arXiv:2103.08464. March 2021.
link
bibtex
@ARTICLE{2021arXiv210308464K,
author = {{Kowalsky}, Matthew and {Albash}, Tameem and {Hen}, Itay and {Lidar}, Daniel A.},
title = "{3-Regular 3-XORSAT Planted Solutions Benchmark of Classical and Quantum Heuristic Optimizers}",
journal = {arXiv e-prints},
keywords = {Quantum Physics},
year = 2021,
month = mar,
eid = {arXiv:2103.08464},
pages = {arXiv:2103.08464},
archivePrefix = {arXiv},
eprint = {2103.08464},
primaryClass = {quant-ph},
adsurl = {https://ui.adsabs.harvard.edu/abs/2021arXiv210308464K},
adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}
3D Convolutional Neural Networks for Classification of Alzheimer's and Parkinson's Disease with T1-Weighted Brain MRI.
Dhinagar, N. J.; Thomopoulos, S. I.; Owens-Walton, C.; Stripelis, D.; Ambite, J. L.; Steeg, G. V.; Weintraub, D.; Cook, P.; McMillan, C.; and Thompson, P. M.
In
17th International Symposium on Medical Information Processing and Analysis (SIPAIM), Campinas, Brazil, 2021.
link
bibtex
@InProceedings{dhinagar2021:sipaim,
author = {Nikhil J. Dhinagar and Sophia I. Thomopoulos and Conor Owens-Walton and Dimitris Stripelis and Jos\'{e} Luis Ambite and Greg Ver Steeg and Daniel Weintraub and Philip Cook and Corey McMillan and Paul M. Thompson},
title = {3D Convolutional Neural Networks for Classification of Alzheimer's and Parkinson's Disease with T1-Weighted Brain MRI},
booktitle = {17th International Symposium on Medical Information Processing and Analysis {(SIPAIM)}},
year = {2021},
address = {Campinas, Brazil},
}
3D Convolutional Neural Networks for Classification of Alzheimer's and Parkinson's Disease with T1-Weighted Brain MRI.
Dhinagar, N. J.; Thomopoulos, S. I.; Owens-Walton, C.; Stripelis, D.; Ambite, J. L.; Ver Steeg, G.; Weintraub, D.; Cook, P.; McMillan, C.; and Thompson, P. M.
In
International Symposium on Medical Information Processing and Analysis (SIPAIM), 2021.
link
bibtex
@inproceedings{nikhil,
Author = {Nikhil J. Dhinagar and Sophia I. Thomopoulos and Conor Owens-Walton and Dimitris Stripelis and Jose Luis Ambite and Greg {Ver Steeg} and Daniel Weintraub and Philip Cook and Corey McMillan and Paul M. Thompson},
Booktitle = {International Symposium on Medical Information Processing and Analysis (SIPAIM)},
Date-Added = {2021-09-01 16:04:24 -0700},
Date-Modified = {2021-09-01 16:27:50 -0700},
Title = {3D Convolutional Neural Networks for Classification of Alzheimer's and Parkinson's Disease with T1-Weighted Brain MRI},
Year = {2021}}
A Case Study in Scientific Reproducibility from the Event Horizon Telescope (EHT).
Ketron, R.; Leonard, J.; Roachell, B.; Patel, R.; White, R.; Caíno-Lores, S.; Tan, N.; Miles, P.; Vahi, K.; Deelman, E.; Brown, D.; and Taufer, M.
In
2021 IEEE 17th International Conference on eScience (eScience), pages 249-250, 2021.
Funding Acknowledgments: NSF 2041977, 2041901, 2041878
doi
link
bibtex
@InProceedings{ ketron-escience-2021,
Author = {Ketron, R. and Leonard, J. and Roachell, B. and Patel, R.
and White, R. and Caíno-Lores, S. and Tan, N. and Miles,
P. and Vahi, K. and Deelman, E. and Brown, D. and Taufer,
M.},
BookTitle = {2021 IEEE 17th International Conference on eScience
(eScience)},
Title = {A Case Study in Scientific Reproducibility from the Event
Horizon Telescope (EHT)},
Year = {2021},
Volume = {},
Number = {},
Pages = {249-250},
DOI = {10.1109/eScience51609.2021.00045},
Note = {Funding Acknowledgments: NSF 2041977, 2041901, 2041878}
}
A Community Roadmap for Scientific Workflows Research and Development.
Ferreira da Silva, R.; Casanova, H.; Chard, K.; Altintas, I.; Badia, R. M; Balis, B.; Coleman, T.; Coppens, F.; Di Natale, F.; Enders, B.; Fahringer, T.; Filgueira, R.; Fursin, G.; Garijo, D.; Goble, C.; Howell, D.; Jha, S.; Katz, D. S.; Laney, D.; Leser, U.; Malawski, M.; Mehta, K.; Pottier, L.; Ozik, J.; Peterson, J. L.; Ramakrishnan, L.; Soiland-Reyes, S.; Thain, D.; and Wolf, M.
In
2021 IEEE Workshop on Workflows in Support of Large-Scale Science (WORKS), pages 81–90, 2021.
doi
link
bibtex
@InProceedings{ community2021works,
Title = {A Community Roadmap for Scientific Workflows Research and
Development},
Author = {Ferreira da Silva, Rafael and Casanova, Henri and Chard,
Kyle and Altintas, Ilkay and Badia, Rosa M and Balis,
Bartosz and Coleman, Tain\~a and Coppens, Frederik and Di
Natale, Frank and Enders, Bjoern and Fahringer, Thomas and
Filgueira, Rosa and Fursin, Grigori and Garijo, Daniel and
Goble, Carole and Howell, Dorran and Jha, Shantenu and
Katz, Daniel S. and Laney, Daniel and Leser, Ulf and
Malawski, Maciej and Mehta, Kshitij and Pottier, Lo\"ic and
Ozik, Jonathan and Peterson, J. Luc and Ramakrishnan,
Lavanya and Soiland-Reyes, Stian and Thain, Douglas and
Wolf, Matthew},
BookTitle = {2021 IEEE Workshop on Workflows in Support of Large-Scale
Science (WORKS)},
Pages = {81--90},
Year = {2021},
DOI = {10.1109/WORKS54523.2021.00016}
}
A Directed, Bi-Populated Preferential Attachment Model with Applications to Analyzing the Glass Ceiling Effect.
Nettasinghe, B.; Alipourfard, N.; Krishnamurthy, V.; and Lerman, K.
arXiv preprint arXiv:2103.12149. 2021.
link
bibtex
@article{nettasinghe2021directed,
title={A Directed, Bi-Populated Preferential Attachment Model with Applications to Analyzing the Glass Ceiling Effect},
author={Nettasinghe, Buddhika and Alipourfard, Nazanin and Krishnamurthy, Vikram and Lerman, Kristina},
journal={arXiv preprint arXiv:2103.12149},
year={2021}
}
A Graph-Based Approach for Inferring Semantic Descriptions of Wikipedia Tables.
Vu, B.; Knoblock, C. A.; Szekely, P.; Pham, M.; and Pujara, J.
In Hotho, A.; Blomqvist, E.; Dietze, S.; Fokoue, A.; Ding, Y.; Barnaghi, P.; Haller, A.; Dragoni, M.; and Alani, H., editor(s),
The Semantic Web – ISWC 2021, pages 304–320, 2021. Springer International Publishing
![A Graph-Based Approach for Inferring Semantic Descriptions of Wikipedia Tables [pptx]](//bibbase.org/img/filetypes/pptx.svg "Slides")
Slides
link
bibtex
abstract
4 downloads
@InProceedings{10.1007/978-3-030-88361-4_18,
author="Vu, Binh and Knoblock, Craig A. and Szekely, Pedro and Pham, Minh and Pujara, Jay",
editor="Hotho, Andreas and Blomqvist, Eva and Dietze, Stefan and Fokoue, Achille and Ding, Ying and Barnaghi, Payam and Haller, Armin and Dragoni, Mauro and Alani, Harith",
title="A Graph-Based Approach for Inferring Semantic Descriptions of Wikipedia Tables",
booktitle="The Semantic Web -- ISWC 2021",
year="2021",
publisher="Springer International Publishing",
pages="304--320",
abstract="There are millions of high-quality tables available in Wikipedia. These tables cover many domains and contain useful information. To make use of these tables for data discovery or data integration, we need precise descriptions of the concepts and relationships in the data, known as semantic descriptions. However, creating semantic descriptions is a complex process requiring considerable manual effort and can be error prone. In this paper, we present a novel probabilistic approach for automatically building semantic descriptions of Wikipedia tables. Our approach leverages hyperlinks in a Wikipedia table and existing knowledge in Wikidata to construct a graph of possible relationships in the table and its context, and then it uses collective inference to distinguish genuine and spurious relationships to form the final semantic description. In contrast to existing methods, our solution can handle tables that require complex semantic descriptions of n-ary relations (e.g., the population of a country in a particular year) or implicit contextual values to describe the data accurately. In our empirical evaluation, our approach outperforms state-of-the-art systems on the SemTab2020 dataset and outperforms those systems by as much as 28{\%} in F1 score on a large set of Wikipedia tables.",
isbn="978-3-030-88361-4",
URLslides = "http://usc-isi-i2.github.io/slides/vu-iswc21-slides.pptx"
}
There are millions of high-quality tables available in Wikipedia. These tables cover many domains and contain useful information. To make use of these tables for data discovery or data integration, we need precise descriptions of the concepts and relationships in the data, known as semantic descriptions. However, creating semantic descriptions is a complex process requiring considerable manual effort and can be error prone. In this paper, we present a novel probabilistic approach for automatically building semantic descriptions of Wikipedia tables. Our approach leverages hyperlinks in a Wikipedia table and existing knowledge in Wikidata to construct a graph of possible relationships in the table and its context, and then it uses collective inference to distinguish genuine and spurious relationships to form the final semantic description. In contrast to existing methods, our solution can handle tables that require complex semantic descriptions of n-ary relations (e.g., the population of a country in a particular year) or implicit contextual values to describe the data accurately. In our empirical evaluation, our approach outperforms state-of-the-art systems on the SemTab2020 dataset and outperforms those systems by as much as 28% in F1 score on a large set of Wikipedia tables.
A Graph-based Approach for Inferring Semantic Descriptions of Wikipedia Tables.
Vu, B.; Knoblock, C.; Szekely, P.; Pujara, J.; and Pham, M.
In
International Semantic Web Conference, 2021.
link
bibtex
@inproceedings{vu:iswc21,
Author = "Vu, Binh and Knoblock, Craig and Szekely, Pedro and Pujara, Jay and Pham, Minh",
acceptrate = "22\%",
bib_url = "/pubs/bib/vu-iswc21.bib",
booktitle = "International Semantic Web Conference",
doi_url = "https://doi.org/10.1007/978-3-030-88361-4\_18",
pdf_url = "/pubs/2021/vu-iswc21/vu-iswc21.pdf",
sec = "conf",
title = "A Graph-based Approach for Inferring Semantic Descriptions of Wikipedia Tables",
year = "2021"
}
A Grounded Approach to Modeling Generic Knowledge Acquisition.
Beser, D.; Cecil, J.; Freedman, M.; Lichtefeld, J. A; Marcus, M.; Payne, S. R.; and Yang, C.
In
Proceedings of the Annual Meeting of the Cognitive Science Society, volume 43, 2021.
link
bibtex
@inproceedings{beser2021grounded,
title={A Grounded Approach to Modeling Generic Knowledge Acquisition},
author={Beser, Deniz and Cecil, Joe and Freedman, Marjorie and Lichtefeld, Jacob A and Marcus, Mitch and Payne, Sarah RB and Yang, Charles},
booktitle={Proceedings of the Annual Meeting of the Cognitive Science Society},
volume={43},
number={43},
year={2021}
}
A Hybrid Probabilistic Approach for Table Understanding.
Sun, K.; Rayudu, H.; and Pujara, J.
In
Conference on Artificial Intelligence (AAAI), 2021.
link
bibtex
@inproceedings{sun:aaai21,
Author = "Sun, Kexuan and Rayudu, Harsha and Pujara, Jay",
acceptrate = "21\%",
bib_url = "/pubs/bib/sun-aaai21.bib",
booktitle = "Conference on Artificial Intelligence (AAAI)",
doi_url = "https://doi.org/10.1609/aaai.v35i5.16562",
pdf_url = "/pubs/2021/sun-aaai21/sun-aaai21.pdf",
sec = "conf",
title = "A Hybrid Probabilistic Approach for Table Understanding",
year = "2021"
}
A Lightweight GPU Monitoring Extension for Pegasus Kickstart.
Papadimitriou, G.; and Deelman, E.
In
2021 IEEE/ACM Workflows in Support of Large-Scale Science (WORKS), 2021.
Funding Acknowledgments: DOE DE-SC0012636, NSF 1664162
doi
link
bibtex
@InProceedings{ papadimitriou-works-2021,
Title = {A Lightweight GPU Monitoring Extension for Pegasus
Kickstart},
Author = {Papadimitriou, George and Deelman, Ewa},
BookTitle = {2021 IEEE/ACM Workflows in Support of Large-Scale Science
(WORKS)},
Year = {2021},
Pages = {},
DOI = {10.5281/zenodo.5915106},
Note = {Funding Acknowledgments: DOE DE-SC0012636, NSF 1664162}
}
A Lightweight Method for Evaluating In Situ Workflow Efficiency.
Do, T. M. A.; Pottier, L.; Caíno-Lores, S.; Ferreira da Silva, R.; Cuendet, M. A.; Weinstein, H.; Estrada, T.; Taufer, M.; and Deelman, E.
Journal of Computational Science, 48: 101259. 2021.
Funding Acknowledgments: NSF 1741040, DOE DE-SC0012636
doi
link
bibtex
@Article{ do-jocs-2021,
Title = {A Lightweight Method for Evaluating In Situ Workflow
Efficiency},
Author = {Do, Tu Mai Anh and Pottier, Lo\"ic and Ca\'ino-Lores,
Silvina and Ferreira da Silva, Rafael and Cuendet, Michel
A. and Weinstein, Harel and Estrada, Trilce and Taufer,
Michela and Deelman, Ewa},
Journal = {Journal of Computational Science},
Volume = {48},
Number = {},
Pages = {101259},
Year = {2021},
DOI = {10.1016/j.jocs.2020.101259},
Note = {Funding Acknowledgments: NSF 1741040, DOE DE-SC0012636}
}
A Roadmap to Robust Science for High-throughput Applications: The Developers’ Perspective.
Taufer, M.; Deelman, E.; Silva, R. F. d.; Estrada, T.; Hall, M.; and Livny, M.
In
2021 IEEE International Conference on Cluster Computing (CLUSTER), pages 807-808, 2021.
Funding Acknowledgments: NSF 2028881, 2028923, 2028930, 2028955, 2028956
doi
link
bibtex
@InProceedings{ taufer-cluster-2021,
Author = {Taufer, M. and Deelman, E. and Silva, R. Ferreira da and
Estrada, T. and Hall, M. and Livny, M.},
BookTitle = {2021 IEEE International Conference on Cluster Computing
(CLUSTER)},
Title = {A Roadmap to Robust Science for High-throughput
Applications: The Developers’ Perspective},
Year = {2021},
Volume = {},
Number = {},
Pages = {807-808},
DOI = {10.1109/Cluster48925.2021.00068},
Note = {Funding Acknowledgments: NSF 2028881, 2028923, 2028930,
2028955, 2028956}
}
A Roadmap to Robust Science for High-throughput Applications: The Scientists’ Perspective.
Taufer, M.; Deelman, E.; da Silva, R. F.; Estrada, T.; and Hall, M.
In
2021 IEEE 17th International Conference on eScience (eScience), pages 247-248, 2021.
Funding Acknowledgments: NSF 2028881, 2028923, 2028930, 2028955, 2028956
doi
link
bibtex
@InProceedings{ taufer-escience-2021,
Author = {Taufer, M. and Deelman, E. and da Silva, R. Ferreira and
Estrada, T. and Hall, M.},
BookTitle = {2021 IEEE 17th International Conference on eScience
(eScience)},
Title = {A Roadmap to Robust Science for High-throughput
Applications: The Scientists’ Perspective},
Year = {2021},
Volume = {},
Number = {},
Pages = {247-248},
DOI = {10.1109/eScience51609.2021.00044},
Note = {Funding Acknowledgments: NSF 2028881, 2028923, 2028930,
2028955, 2028956}
}
A Study of the Quality of Wikidata.
Shenoy, K.; Ilievski, F.; Garijo, D.; Schwabe, D.; and Szekely, P.
Journal of Web Semantics, (Community-based Knowledge Bases). 2021.
link
bibtex
@article{shenoy2021study,
title={A Study of the Quality of Wikidata},
author={Shenoy, Kartik and Ilievski, Filip and Garijo, Daniel and Schwabe, Daniel and Szekely, Pedro},
journal={Journal of Web Semantics},
number={Community-based Knowledge Bases},
year={2021}
}
A continuous indicator of food environment nutritional quality.
Liu, I. C; de la Haye, K.; Abeliuk, A.; and Horn, A. L
medRxiv,2021–11. 2021.
link
bibtex
@article{liu2021continuous,
title={A continuous indicator of food environment nutritional quality},
author={Liu, Iris C and de la Haye, Kayla and Abeliuk, Andr{\'e}s and Horn, Abigail L},
journal={medRxiv},
pages={2021--11},
year={2021},
publisher={Cold Spring Harbor Laboratory Press}
}
A meta-engine for building domain-specific search engines.
Kejriwal, M.
Softw. Impacts, 7: 100052. 2021.
Paper
doi
link
bibtex
1 download
@article{DBLP:journals/simpa/Kejriwal21,
author = {Mayank Kejriwal},
title = {A meta-engine for building domain-specific search engines},
journal = {Softw. Impacts},
volume = {7},
pages = {100052},
year = {2021},
url = {https://doi.org/10.1016/j.simpa.2020.100052},
doi = {10.1016/j.simpa.2020.100052},
timestamp = {Wed, 05 May 2021 01:00:00 +0200},
biburl = {https://dblp.org/rec/journals/simpa/Kejriwal21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
A multi-agent simulator for generating novelty in monopoly.
Kejriwal, M.; and Thomas, S.
Simul. Model. Pract. Theory, 112: 102364. 2021.
Paper
doi
link
bibtex
3 downloads
@article{DBLP:journals/simpra/KejriwalT21,
author = {Mayank Kejriwal and
Shilpa Thomas},
title = {A multi-agent simulator for generating novelty in monopoly},
journal = {Simul. Model. Pract. Theory},
volume = {112},
pages = {102364},
year = {2021},
url = {https://doi.org/10.1016/j.simpat.2021.102364},
doi = {10.1016/j.simpat.2021.102364},
timestamp = {Thu, 12 Aug 2021 01:00:00 +0200},
biburl = {https://dblp.org/rec/journals/simpra/KejriwalT21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
A reproduction of Apple's bi-directional LSTM models for language identification in short strings.
Toftrup, M.; Asger Sørensen, S.; Ciosici, M. R.; and Assent, I.
In
Proceedings of the 16th Conference of the European Chapter of the Association for Computational Linguistics: Student Research Workshop, pages 36–42, Online, April 2021. Association for Computational Linguistics
Paper
doi
link
bibtex
abstract
@inproceedings{toftrup-etal-2021-reproduction,
abstract = {Language Identification is the task of identifying a document{'}s language. For applications like automatic spell checker selection, language identification must use very short strings such as text message fragments. In this work, we reproduce a language identification architecture that Apple briefly sketched in a blog post. We confirm the bi-LSTM model{'}s performance and find that it outperforms current open-source language identifiers. We further find that its language identification mistakes are due to confusion between related languages.},
address = {Online},
author = {Toftrup, Mads and Asger S{\o}rensen, S{\o}ren and Ciosici, Manuel R. and Assent, Ira},
booktitle = {Proceedings of the 16th Conference of the European Chapter of the Association for Computational Linguistics: Student Research Workshop},
doi = {10.18653/v1/2021.eacl-srw.6},
month = apr,
pages = {36--42},
publisher = {Association for Computational Linguistics},
title = {A reproduction of Apple{'}s bi-directional {LSTM} models for language identification in short strings},
url = {https://aclanthology.org/2021.eacl-srw.6},
year = {2021},
bdsk-url-1 = {https://aclanthology.org/2021.eacl-srw.6},
bdsk-url-2 = {https://doi.org/10.18653/v1/2021.eacl-srw.6}}
Language Identification is the task of identifying a document's language. For applications like automatic spell checker selection, language identification must use very short strings such as text message fragments. In this work, we reproduce a language identification architecture that Apple briefly sketched in a blog post. We confirm the bi-LSTM model's performance and find that it outperforms current open-source language identifiers. We further find that its language identification mistakes are due to confusion between related languages.
A survey of human judgement and quantitative forecasting methods.
Zellner, M.; Abbas, A. E; Budescu, D. V; and Galstyan, A.
Royal Society open science, 8(2): 201187. 2021.
link
bibtex
@article{zellner2021survey,
title={A survey of human judgement and quantitative forecasting methods},
author={Zellner, Maximilian and Abbas, Ali E and Budescu, David V and Galstyan, Aram},
journal={Royal Society open science},
volume={8},
number={2},
pages={201187},
year={2021},
publisher={The Royal Society}
}
A survey on bias and fairness in machine learning.
Mehrabi, N.; Morstatter, F.; Saxena, N.; Lerman, K.; and Galstyan, A.
ACM Computing Surveys (CSUR), 54(6): 1–35. 2021.
link
bibtex
1 download
@article{mehrabi2021survey,
title={A survey on bias and fairness in machine learning},
author={Mehrabi, Ninareh and Morstatter, Fred and Saxena, Nripsuta and Lerman, Kristina and Galstyan, Aram},
journal={ACM Computing Surveys (CSUR)},
volume={54},
number={6},
pages={1--35},
year={2021},
publisher={ACM New York, NY, USA}
}
ADAM: A Sandbox for Implementing Language Learning.
Gabbard, R. D; Beser, D.; Lichtefeld, J.; Cecil, J.; Marcus, M. P.; Payne, S.; Yang, C. D.; and Freedman, M.
arXiv Preprint: https://arxiv.org/abs/2105.02263, may 2021.
link
link
bibtex
@misc{Gabbard2021ADAMAS,
title={ADAM: A Sandbox for Implementing Language Learning},
author={Ryan D Gabbard and Deniz Beser and Jacob Lichtefeld and Joe Cecil and Mitchell P. Marcus and Sarah Payne and Charles D. Yang and Marjorie Freedman},
year={2021},
month={may},
Eprint={arXiv:2105.02263},
Howpublished={arXiv Preprint: https://arxiv.org/abs/2105.02263},
url_Link={https://arxiv.org/abs/2105.02263},
ISIArea = {NLP}
}
AESOP: Paraphrase Generation with Adaptive Syntactic Control.
Sun, J.; Ma, X.; and Peng, N.
In
Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing (EMNLP-2021), Punta Cana, Dominican Republic, November 2021.
link
bibtex
@inproceedings{sun2021aesop,
title = {AESOP: Paraphrase Generation with Adaptive Syntactic Control},
author = {Sun, Jiao and Ma, Xuezhe and Peng, Nanyun},
booktitle = {Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing (EMNLP-2021)},
address = {Punta Cana, Dominican Republic},
month = {November},
year = {2021}
}
AMPPERE: A Universal Abstract Machine for Privacy-Preserving Entity Resolution Evaluation.
Yao, Y.; Ghai, T.; Ravi, S.; and Szekely, P. A.
In Demartini, G.; Zuccon, G.; Culpepper, J. S.; Huang, Z.; and Tong, H., editor(s),
CIKM '21: The 30th ACM International Conference on Information and Knowledge Management, Virtual Event, Queensland, Australia, November 1 - 5, 2021, pages 2394–2403, 2021. ACM
Paper
doi
link
bibtex
@inproceedings{DBLP:conf/cikm/YaoGRS21,
author = {Yixiang Yao and
Tanmay Ghai and
Srivatsan Ravi and
Pedro A. Szekely},
editor = {Gianluca Demartini and
Guido Zuccon and
J. Shane Culpepper and
Zi Huang and
Hanghang Tong},
title = {{AMPPERE:} {A} Universal Abstract Machine for Privacy-Preserving Entity
Resolution Evaluation},
booktitle = {{CIKM} '21: The 30th {ACM} International Conference on Information
and Knowledge Management, Virtual Event, Queensland, Australia, November
1 - 5, 2021},
pages = {2394--2403},
publisher = {{ACM}},
year = {2021},
url = {https://doi.org/10.1145/3459637.3482318},
doi = {10.1145/3459637.3482318},
timestamp = {Tue, 02 Nov 2021 12:01:17 +0100},
biburl = {https://dblp.org/rec/conf/cikm/YaoGRS21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Adversarial attack and defense strategies for deep speaker recognition systems.
Jati, A.; Hsu, C.; Pal, M.; Peri, R.; AbdAlmageed, W.; and Narayanan, S.
Computer Speech & Language, 68: 101199. 2021.
link
bibtex
@article{jati2021adversarial,
title={Adversarial attack and defense strategies for deep speaker recognition systems},
author={Jati, Arindam and Hsu, Chin-Cheng and Pal, Monisankha and Peri, Raghuveer and AbdAlmageed, Wael and Narayanan, Shrikanth},
journal={Computer Speech \& Language},
volume={68},
pages={101199},
year={2021},
publisher={Elsevier},
keywords="journal"
}
Adversarial defense for deep speaker recognition using hybrid adversarial training.
Pal, M.; Jati, A.; Peri, R.; Hsu, C.; AbdAlmageed, W.; and Narayanan, S.
IEEE International Conference on Acoustics, Speech and Signal Processing. 2021.
link
bibtex
@article{pal2020adversarial,
title={Adversarial defense for deep speaker recognition using hybrid adversarial training},
author={Pal, Monisankha and Jati, Arindam and Peri, Raghuveer and Hsu, Chin-Cheng and AbdAlmageed, Wael and Narayanan, Shrikanth},
journal = {IEEE International Conference on Acoustics, Speech and Signal Processing},
year={2021},
keywords="conference"
}
Agenda Pushing in Email to Thwart Phishing.
Cho, H.; Bartlett, G.; and Freedman, M.
In
Proceedings of the 1st Workshop on Document-grounded Dialogue and Conversational Question Answering (DialDoc 2021), pages 113–118, 2021.
link
bibtex
@inproceedings{cho2021agenda,
title={Agenda Pushing in Email to Thwart Phishing},
author={Cho, Hyundong and Bartlett, Genevieve and Freedman, Marjorie},
booktitle={Proceedings of the 1st Workshop on Document-grounded Dialogue and Conversational Question Answering (DialDoc 2021)},
pages={113--118},
year={2021}
}
An empirical study of emoji usage on Twitter in linguistic and national contexts.
Kejriwal, M.; Wang, Q.; Li, H.; and Wang, L.
Online Soc. Networks Media, 24: 100149. 2021.
Paper
doi
link
bibtex
1 download
@article{DBLP:journals/osnm/KejriwalWLW21,
author = {Mayank Kejriwal and
Qile Wang and
Hongyu Li and
Lu Wang},
title = {An empirical study of emoji usage on Twitter in linguistic and national
contexts},
journal = {Online Soc. Networks Media},
volume = {24},
pages = {100149},
year = {2021},
url = {https://doi.org/10.1016/j.osnem.2021.100149},
doi = {10.1016/j.osnem.2021.100149},
timestamp = {Mon, 03 Jan 2022 00:00:00 +0100},
biburl = {https://dblp.org/rec/journals/osnm/KejriwalWLW21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
An evaluation and annotation methodology for product category matching in e-commerce.
Kejriwal, M.; Shen, K.; Ni, C.; and Torzec, N.
Comput. Ind., 131: 103497. 2021.
Paper
doi
link
bibtex
13 downloads
@article{DBLP:journals/cii/KejriwalSNT21,
author = {Mayank Kejriwal and
Ke Shen and
Chien{-}Chun Ni and
Nicolas Torzec},
title = {An evaluation and annotation methodology for product category matching
in e-commerce},
journal = {Comput. Ind.},
volume = {131},
pages = {103497},
year = {2021},
url = {https://doi.org/10.1016/j.compind.2021.103497},
doi = {10.1016/j.compind.2021.103497},
timestamp = {Tue, 31 Aug 2021 01:00:00 +0200},
biburl = {https://dblp.org/rec/journals/cii/KejriwalSNT21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
An integral-free representation of the Dyson series using divided differences.
Kalev, A.; and Hen, I.
, 23(10): 103035. oct 2021.
Paper
doi
link
bibtex
@article{KalevIntegral2021,
doi = {10.1088/1367-2630/ac2dae},
url = {https://doi.org/10.1088/1367-2630/ac2dae},
year = 2021,
month = {oct},
publisher = {{IOP} Publishing},
volume = {23},
number = {10},
pages = {103035},
author = {Amir Kalev and Itay Hen},
title = {An integral-free representation of the Dyson series using divided differences}
}
An integrated risk and epidemiological model to estimate risk-stratified COVID-19 outcomes for Los Angeles County: March 1, 2020—March 1, 2021.
Horn, A. L; Jiang, L.; Washburn, F.; Hvitfeldt, E.; de la Haye, K.; Nicholas, W.; Simon, P.; Pentz, M.; Cozen, W.; Sood, N.; and others
Plos one, 16(6): e0253549. 2021.
link
bibtex
@article{horn2021integrated,
title={An integrated risk and epidemiological model to estimate risk-stratified COVID-19 outcomes for Los Angeles County: March 1, 2020—March 1, 2021},
author={Horn, Abigail L and Jiang, Lai and Washburn, Faith and Hvitfeldt, Emil and de la Haye, Kayla and Nicholas, William and Simon, Paul and Pentz, Maryann and Cozen, Wendy and Sood, Neeraj and others},
journal={Plos one},
volume={16},
number={6},
pages={e0253549},
year={2021},
publisher={Public Library of Science San Francisco, CA USA}
}
Analyzing Race and Citizenship Bias in Wikidata.
Shaik, Z.; Ilievski, F.; and Morstatter, F.
In
2021 IEEE 18th International Conference on Mobile Ad Hoc and Smart Systems (MASS), pages 665–666, 2021. IEEE
link
bibtex
@inproceedings{shaik2021analyzing,
title={Analyzing Race and Citizenship Bias in Wikidata},
author={Shaik, Zaina and Ilievski, Filip and Morstatter, Fred},
booktitle={2021 IEEE 18th International Conference on Mobile Ad Hoc and Smart Systems (MASS)},
pages={665--666},
year={2021},
organization={IEEE}
}
Analyzing Race and Country of Citizenship Bias in Wikidata.
Shaik, Z.; Ilievski, F.; and Morstatter, F.
arXiv preprint arXiv:2108.05412. 2021.
link
bibtex
@article{shaik2021analyzing,
title={Analyzing Race and Country of Citizenship Bias in Wikidata},
author={Shaik, Zaina and Ilievski, Filip and Morstatter, Fred},
journal={arXiv preprint arXiv:2108.05412},
year={2021}
}
Anomaly Detection in Scientific Workflows using End-to-End Execution Gantt Charts and Convolutional Neural Networks.
Krawczuk, P.; Papadimitriou, G.; Nagarkar, S.; Kiran, M.; Mandal, A.; and Deelman, E.
In
Practice and Experience in Advanced Research Computing, of
PEARC '21, New York, NY, USA, 2021. Association for Computing Machinery
Funding Acknowledgments: DOE DESC0012636
Paper
doi
link
bibtex
@InProceedings{ krawczuk-pearc-2021,
Author = {Krawczuk, Patrycja and Papadimitriou, George and Nagarkar,
Shubham and Kiran, Mariam and Mandal, Anirban and Deelman,
Ewa},
Title = {Anomaly Detection in Scientific Workflows using End-to-End
Execution Gantt Charts and Convolutional Neural Networks},
Year = {2021},
ISBN = {9781450382922},
Publisher = {Association for Computing Machinery},
Address = {New York, NY, USA},
URL = {http://doi.acm.org/10.1145/3437359.3465597},
DOI = {10.1145/3437359.3465597},
BookTitle = {Practice and Experience in Advanced Research Computing},
articleno = {26},
numpages = {5},
Location = {Boston, MA, USA},
Series = {PEARC '21},
Note = {Funding Acknowledgments: DOE DESC0012636}
}
Anycast in Context: A Tale of Two Systems.
Koch, T.; Li, K.; Ardi, C.; Katz-Bassett, E.; Calder, M.; and Heidemann, J.
In
Proceedings of the ACM SIGCOMM Conference , Virtual, August 2021. ACM
Paper
doi
link
bibtex
abstract
@InProceedings{Koch21a,
author = "Thomas Koch and Ke Li and Calvin Ardi and
Ethan Katz-Bassett and Matt Calder and John Heidemann",
title = "Anycast in Context: A Tale of Two Systems",
booktitle = "Proceedings of the " # " ACM SIGCOMM Conference ",
year = 2021,
sortdate = "2021-08-23",
project = "ant, diiner, ddidd",
jsubject = "topology_modeling",
month = aug,
address = "Virtual",
publisher = "ACM",
jlocation = "johnh: pafile",
keywords = "dns, root, anycast, cdn, latency",
doi = "https://doi.org/10.1145/3452296.3472891",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Koch21a.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Kocha21a.pdf",
blogurl = "https://ant.isi.edu/blog/?p=1767",
myorganization = "USC/Information Sciences Institute",
abstract = "
Anycast is used to serve content including web pages and DNS, and
anycast deployments are growing. However, prior work examining root DNS
suggests anycast deployments incur significant inflation, with users
often routed to suboptimal sites. We reassess anycast performance, first
extending prior analysis on inflation in the root DNS. We show that
inflation is very common in root DNS, affecting more than 95\% of users.
However, we then show root DNS latency \emph{hardly matters} to users
because caching is so effective. These findings lead us to question: is
inflation inherent to anycast, or can inflation be limited when it
matters? To answer this question, we consider Microsoft's anycast CDN
serving latency-sensitive content. Here, latency matters orders of
magnitude more than for root DNS. Perhaps because of this need, only
35\% of CDN users experience any inflation, and the amount they
experience is smaller than for root DNS. We show that CDN anycast
latency has little inflation due to extensive peering and engineering.
These results suggest prior claims of anycast inefficiency reflect
experiments on a single application rather than anycast's technical
potential, and they demonstrate the importance of context when measuring
system performance.
",
}
Anycast is used to serve content including web pages and DNS, and anycast deployments are growing. However, prior work examining root DNS suggests anycast deployments incur significant inflation, with users often routed to suboptimal sites. We reassess anycast performance, first extending prior analysis on inflation in the root DNS. We show that inflation is very common in root DNS, affecting more than 95% of users. However, we then show root DNS latency \emphhardly matters to users because caching is so effective. These findings lead us to question: is inflation inherent to anycast, or can inflation be limited when it matters? To answer this question, we consider Microsoft's anycast CDN serving latency-sensitive content. Here, latency matters orders of magnitude more than for root DNS. Perhaps because of this need, only 35% of CDN users experience any inflation, and the amount they experience is smaller than for root DNS. We show that CDN anycast latency has little inflation due to extensive peering and engineering. These results suggest prior claims of anycast inefficiency reflect experiments on a single application rather than anycast's technical potential, and they demonstrate the importance of context when measuring system performance.
Apodized Distributed Bragg Reflector (DBR) Bends for Compact cWDM Filter.
Gebregiorgis, Y.; Chandran, S.; Papadovasilakis, M.; Bian, Y.; Rakowski, M.; Afzal, F. O; Augur, R.; and Viegas, J.
In
Integrated Photonics Research, Silicon and Nanophotonics, pages IM1B–5, 2021. Optical Society of America
link
bibtex
@inproceedings{gebregiorgis2021apodized,
title={Apodized Distributed Bragg Reflector (DBR) Bends for Compact cWDM Filter},
author={Gebregiorgis, Yonas and Chandran, Sujith and Papadovasilakis, Marios and Bian, Yusheng and Rakowski, Michal and Afzal, Francis O and Augur, Rod and Viegas, Jaime},
booktitle={Integrated Photonics Research, Silicon and Nanophotonics},
pages={IM1B--5},
year={2021},
organization={Optical Society of America}
}
Arabic Scene Text Recognition in the Deep Learning Era: Analysis on a Novel Dataset.
Hassan, H.; El-Mahdy, A.; and Hussein, M. E.
IEEE Access, 9: 107046–107058. 2021.
doi
link
bibtex
@article{hassanArabicSceneText2021,
title = {Arabic {Scene} {Text} {Recognition} in the {Deep} {Learning} {Era}: {Analysis} on a {Novel} {Dataset}},
volume = {9},
issn = {2169-3536},
shorttitle = {Arabic {Scene} {Text} {Recognition} in the {Deep} {Learning} {Era}},
doi = {10.1109/ACCESS.2021.3100717},
journal = {IEEE Access},
author = {Hassan, Heba and El-Mahdy, Ahmed and Hussein, Mohamed E.},
year = {2021},
pages = {107046--107058}
}
Array of integrated pixel and memory cells for deep in-sensor, in-memory computing.
Jaiswal, A.; and Jacob, A. P.
June~10 2021.
US Patent App. 16/705,434
link
bibtex
@misc{jaiswal2021array,
title={Array of integrated pixel and memory cells for deep in-sensor, in-memory computing},
author={Jaiswal, Akhilesh and Jacob, Ajey Poovannummoottil},
year={2021},
month=jun # "~10",
publisher={Google Patents},
note={US Patent App. 16/705,434}
}
Artificial Intelligence for Modeling Complex Systems: Taming the Complexity of Expert Models to Improve Decision Making.
Gil, Y.; Garijo, D.; Khider, D.; Knoblock, C. A.; Ratnakar, V.; Osorio, M.; Vargas, H.; Pham, M.; Pujara, J.; Shbita, B.; Vu, B.; Chiang, Y.; Feldman, D.; Lin, Y.; Song, H.; Kumar, V.; Khandelwal, A.; Steinbach, M.; Tayal, K.; Xu, S.; Pierce, S. A.; Pearson, L.; Hardesty-Lewis, D.; Deelman, E.; Silva, R. F. D.; Mayani, R.; Kemanian, A. R.; Shi, Y.; Leonard, L.; Peckham, S.; Stoica, M.; Cobourn, K.; Zhang, Z.; Duffy, C.; and Shu, L.
ACM Transactions on Interactive Intelligent Systems, 11(2). July 2021.
Paper
doi
link
bibtex
abstract
23 downloads
@article{10.1145/3453172,
author = {Gil, Yolanda and Garijo, Daniel and Khider, Deborah and Knoblock, Craig A. and Ratnakar, Varun and Osorio, Maximiliano and Vargas, Hern\'{a}n and Pham, Minh and Pujara, Jay and Shbita, Basel and Vu, Binh and Chiang, Yao-Yi and Feldman, Dan and Lin, Yijun and Song, Hayley and Kumar, Vipin and Khandelwal, Ankush and Steinbach, Michael and Tayal, Kshitij and Xu, Shaoming and Pierce, Suzanne A. and Pearson, Lissa and Hardesty-Lewis, Daniel and Deelman, Ewa and Silva, Rafael Ferreira Da and Mayani, Rajiv and Kemanian, Armen R. and Shi, Yuning and Leonard, Lorne and Peckham, Scott and Stoica, Maria and Cobourn, Kelly and Zhang, Zeya and Duffy, Christopher and Shu, Lele},
title = {Artificial Intelligence for Modeling Complex Systems: Taming the Complexity of Expert Models to Improve Decision Making},
year = {2021},
issue_date = {July 2021},
publisher = {Association for Computing Machinery},
address = {New York, NY, USA},
volume = {11},
number = {2},
issn = {2160-6455},
url = {https://doi.org/10.1145/3453172},
doi = {10.1145/3453172},
abstract = {Major societal and environmental challenges involve complex systems that have diverse multi-scale interacting processes. Consider, for example, how droughts and water reserves affect crop production and how agriculture and industrial needs affect water quality and availability. Preventive measures, such as delaying planting dates and adopting new agricultural practices in response to changing weather patterns, can reduce the damage caused by natural processes. Understanding how these natural and human processes affect one another allows forecasting the effects of undesirable situations and study interventions to take preventive measures. For many of these processes, there are expert models that incorporate state-of-the-art theories and knowledge to quantify a system's response to a diversity of conditions. A major challenge for efficient modeling is the diversity of modeling approaches across disciplines and the wide variety of data sources available only in formats that require complex conversions. Using expert models for particular problems requires integration of models with third-party data as well as integration of models across disciplines. Modelers face significant heterogeneity that requires resolving semantic, spatiotemporal, and execution mismatches, which are largely done by hand today and may take more than 2 years of effort.We are developing a modeling framework that uses artificial intelligence (AI) techniques to reduce modeling effort while ensuring utility for decision making. Our work to date makes several innovative contributions: (1) an intelligent user interface that guides analysts to frame their modeling problem and assists them by suggesting relevant choices and automating steps along the way; (2) semantic metadata for models, including their modeling variables and constraints, that ensures model relevance and proper use for a given decision-making problem; and (3) semantic representations of datasets in terms of modeling variables that enable automated data selection and data transformations. This framework is implemented in the MINT (Model INTegration) framework, and currently includes data and models to analyze the interactions between natural and human systems involving climate, water availability, agricultural production, and markets. Our work to date demonstrates the utility of AI techniques to accelerate modeling to support decision-making and uncovers several challenging directions for future work.},
journal = {ACM Transactions on Interactive Intelligent Systems},
month = {July},
articleno = {11},
numpages = {49},
keywords = {regional-level decision-making, remote sensing data, Intelligent user interfaces, integrated modeling, model metadata}
}
Major societal and environmental challenges involve complex systems that have diverse multi-scale interacting processes. Consider, for example, how droughts and water reserves affect crop production and how agriculture and industrial needs affect water quality and availability. Preventive measures, such as delaying planting dates and adopting new agricultural practices in response to changing weather patterns, can reduce the damage caused by natural processes. Understanding how these natural and human processes affect one another allows forecasting the effects of undesirable situations and study interventions to take preventive measures. For many of these processes, there are expert models that incorporate state-of-the-art theories and knowledge to quantify a system's response to a diversity of conditions. A major challenge for efficient modeling is the diversity of modeling approaches across disciplines and the wide variety of data sources available only in formats that require complex conversions. Using expert models for particular problems requires integration of models with third-party data as well as integration of models across disciplines. Modelers face significant heterogeneity that requires resolving semantic, spatiotemporal, and execution mismatches, which are largely done by hand today and may take more than 2 years of effort.We are developing a modeling framework that uses artificial intelligence (AI) techniques to reduce modeling effort while ensuring utility for decision making. Our work to date makes several innovative contributions: (1) an intelligent user interface that guides analysts to frame their modeling problem and assists them by suggesting relevant choices and automating steps along the way; (2) semantic metadata for models, including their modeling variables and constraints, that ensures model relevance and proper use for a given decision-making problem; and (3) semantic representations of datasets in terms of modeling variables that enable automated data selection and data transformations. This framework is implemented in the MINT (Model INTegration) framework, and currently includes data and models to analyze the interactions between natural and human systems involving climate, water availability, agricultural production, and markets. Our work to date demonstrates the utility of AI techniques to accelerate modeling to support decision-making and uncovers several challenging directions for future work.
Assessing Resource Provisioning and Allocation of Ensembles of In Situ Workflows.
Do, T. M. A.; Pottier, L.; Ferreira da Silva, R.; Caíno-Lores, S.; Taufer, M.; and Deelman, E.
In
50th International Conference on Parallel Processing Workshop, of
ICPP Workshops '21, New York, NY, USA, 2021. Association for Computing Machinery
Funding Acknowledgments: NSF 1741040, DOE SC0012636
Paper
doi
link
bibtex
@InProceedings{ do2021p2s2,
Author = {Do, Tu Mai Anh and Pottier, Lo\"{\i}c and Ferreira da
Silva, Rafael and Ca\'{\i}no-Lores, Silvina and Taufer,
Michela and Deelman, Ewa},
Title = {Assessing Resource Provisioning and Allocation of
Ensembles of In Situ Workflows},
Year = {2021},
ISBN = {9781450384414},
Publisher = {Association for Computing Machinery},
Address = {New York, NY, USA},
URL = {https://doi.org/10.1145/3458744.3474051},
DOI = {10.1145/3458744.3474051},
BookTitle = {50th International Conference on Parallel Processing
Workshop},
articleno = {38},
numpages = {10},
Keywords = {Scientific workflow, High-performance computing, In situ
model, Ensemble workflow, Molecular dynamics},
Location = {Lemont, IL, USA},
Series = {ICPP Workshops '21},
Note = {Funding Acknowledgments: NSF 1741040, DOE SC0012636}
}
Assessment of Combined Brain-Face Morphology in Youth with Congenital Adrenal Hyperplasia due to 21-Hydroxylase Deficiency.
Mirzaalian, H.; Hertingand, M.; Lewinger, J.; Ahmed, S.; Fraga, N. R.; Randolph, L.; Geffner, M. E.; Kohli, S.; AbdAlmageed, W.; and Kim, M. S.
Pediatric Endocrine Society, 4(Supplement_1). 2021.
link
bibtex
@article{PES_2021,
title = {Assessment of Combined Brain-Face Morphology in Youth with Congenital Adrenal Hyperplasia due to 21-Hydroxylase Deficiency},
volume = {4},
issn = {2472-1972},
number = {Supplement\_1},
journal = {Pediatric Endocrine Society},
author = {H. Mirzaalian and M. Hertingand and J.P. Lewinger and S. Ahmed and N. R. Fraga and L. Randolph and M. E. Geffner and S. Kohli and W. AbdAlmageed and M. S. Kim},
year = {2021},
keywords="abstract"
}
Attributing Fair Decisions with Attention Interventions.
Mehrabi, N.; Gupta, U.; Morstatter, F.; Steeg, G. V.; and Galstyan, A.
arXiv preprint arXiv:2109.03952. 2021.
link
bibtex
@article{mehrabi2021attributing,
title={Attributing Fair Decisions with Attention Interventions},
author={Mehrabi, Ninareh and Gupta, Umang and Morstatter, Fred and Steeg, Greg Ver and Galstyan, Aram},
journal={arXiv preprint arXiv:2109.03952},
year={2021}
}
Auditing for Discrimination in Algorithms Delivering Job Ads.
Imana, B.; Korolova, A.; and Heidemann, J.
Technical Report arXiv:2102.07433v2 [cs.NI], arXiv, April 2021.
Paper
doi
link
bibtex
abstract
@TechReport{Imana21b,
author = "Basileal Imana and Aleksandra Korolova and John Heidemann",
title = "Auditing for Discrimination in Algorithms Delivering Job Ads",
institution = "arXiv",
year = 2021,
sortdate = "2021-04-09",
project = "ant",
jsubject = "network_observation",
number = "arXiv:2102.07433v2 [cs.NI]",
doi = "10.1145/3442381.3450077",
month = apr,
jlocation = "johnh: pafile",
keywords = "linkedin, facebook, ad delivery algorithm, bias, skew, discrimination",
url = "https://arxiv.org/abs/2104.04502v1",
otherurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Imana21b.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Imana21b.pdf",
abstract = "
Ad platforms such as Facebook, Google and LinkedIn promise
value for advertisers through their targeted advertising. However, multiple studies have shown that ad delivery on such platforms can be skewed by gender or race due to hidden algorithmic optimization by the platforms, even when not requested
by the advertisers. Building on prior work measuring skew
in ad delivery, we develop a new methodology for black-box
auditing of algorithms for \emph{discrimination} in the delivery of job
advertisements. Our first contribution is to identify the distinction between skew in ad delivery due to protected categories
such as gender or race, from skew due to differences in qualification among people in the targeted audience. This distinction
is important in U.S. law, where ads may be targeted based
on qualifications, but not on protected categories. Second, we
develop an auditing methodology that distinguishes between
skew explainable by differences in qualifications from other
factors, such as the ad platform's optimization for engagement
or training its algorithms on biased data. Our method controls for job qualification by comparing ad delivery of two
concurrent ads for similar jobs, but for a pair of companies
with different de facto gender distributions of employees. We
describe the careful statistical tests that establish evidence
of non-qualification skew in the results. Third, we apply our
proposed methodology to two prominent targeted advertising
platforms for job ads: Facebook and LinkedIn. We confirm
skew by gender in ad delivery on Facebook, and show that
it cannot be justified by differences in qualifications. We fail
to find skew in ad delivery on LinkedIn. Finally, we suggest
improvements to ad platform practices that could make external auditing of their algorithms in the public interest more
feasible and accurate."
}
Ad platforms such as Facebook, Google and LinkedIn promise value for advertisers through their targeted advertising. However, multiple studies have shown that ad delivery on such platforms can be skewed by gender or race due to hidden algorithmic optimization by the platforms, even when not requested by the advertisers. Building on prior work measuring skew in ad delivery, we develop a new methodology for black-box auditing of algorithms for \emphdiscrimination in the delivery of job advertisements. Our first contribution is to identify the distinction between skew in ad delivery due to protected categories such as gender or race, from skew due to differences in qualification among people in the targeted audience. This distinction is important in U.S. law, where ads may be targeted based on qualifications, but not on protected categories. Second, we develop an auditing methodology that distinguishes between skew explainable by differences in qualifications from other factors, such as the ad platform's optimization for engagement or training its algorithms on biased data. Our method controls for job qualification by comparing ad delivery of two concurrent ads for similar jobs, but for a pair of companies with different de facto gender distributions of employees. We describe the careful statistical tests that establish evidence of non-qualification skew in the results. Third, we apply our proposed methodology to two prominent targeted advertising platforms for job ads: Facebook and LinkedIn. We confirm skew by gender in ad delivery on Facebook, and show that it cannot be justified by differences in qualifications. We fail to find skew in ad delivery on LinkedIn. Finally, we suggest improvements to ad platform practices that could make external auditing of their algorithms in the public interest more feasible and accurate.
Augmented Memory Computing: Dynamically Augmented SRAM Storage for Data Intensive Applications.
Sheshadri, H.; Vijayakumar, S.; Jacob, A.; and Jaiswal, A.
arXiv preprint arXiv:2109.03022. 2021.
link
bibtex
@article{sheshadri2021augmented,
title={Augmented Memory Computing: Dynamically Augmented SRAM Storage for Data Intensive Applications},
author={Sheshadri, Haripriya and Vijayakumar, Shwetha and Jacob, Ajey and Jaiswal, Akhilesh},
journal={arXiv preprint arXiv:2109.03022},
year={2021}
}
Authors’ Response to Peer Reviews of “Social Media Polarization and Echo Chambers in the Context of COVID-19: Case Study”.
Jiang, J.; Ren, X.; Ferrara, E.; and others
JMIRx Med, 2(3): e32266. 2021.
link
bibtex
@article{jiang2021authors,
title={Authors’ Response to Peer Reviews of “Social Media Polarization and Echo Chambers in the Context of COVID-19: Case Study”},
author={Jiang, Julie and Ren, Xiang and Ferrara, Emilio and others},
journal={JMIRx Med},
volume={2},
number={3},
pages={e32266},
year={2021},
publisher={JMIR Publications Inc., Toronto, Canada}
}
BD2K Training Coordinating Center's ERuDIte: The Educational Resource Discovery Index for Data Science.
Ambite, J. L.; Fierro, L.; Gordon, J.; Burns, G. A. P. C.; Geigl, F.; Lerman, K.; and Van Horn, J. D.
IEEE Transactions on Emerging Topics in Computing, 9(1): 316-328. 2021.
doi
link
bibtex
@Article{ambite2021:tetc,
author={Ambite, Jos\'{e} Luis and Fierro, Lily and Gordon, Jonathan and Burns, Gully A. P. C. and Geigl, Florian and Lerman, Kristina and Van Horn, John D.},
journal={IEEE Transactions on Emerging Topics in Computing},
title={{BD2K Training Coordinating Center's ERuDIte: The Educational Resource Discovery Index for Data Science}},
year={2021},
volume={9},
number={1},
pages={316-328},
doi={10.1109/TETC.2019.2903466}}
Bin2vec: learning representations of binary executable programs for security tasks.
Arakelyan, S.; Arasteh, S.; Hauser, C.; Kline, E.; and Galstyan, A.
Cybersecurity, 4(1): 1–14. 2021.
link
bibtex
@article{arakelyan2021bin2vec,
title={Bin2vec: learning representations of binary executable programs for security tasks},
author={Arakelyan, Shushan and Arasteh, Sima and Hauser, Christophe and Kline, Erik and Galstyan, Aram},
journal={Cybersecurity},
volume={4},
number={1},
pages={1--14},
year={2021},
publisher={SpringerOpen}
}
BioFors: A Large Biomedical Image Forensics Dataset.
Sabir, E.; Nandi, S.; Abd-Almageed, W.; and Natarajan, P.
International Conference on Computer Vision. 2021.
link
bibtex
@article{Sabir_iccv_2021,
title = {BioFors: A Large Biomedical Image Forensics Dataset},
author = {Ekraam Sabir and Soumyaroop Nandi and Wael Abd-Almageed and Prem Natarajan},
journal = {International Conference on Computer Vision},
year = {2021},
keywords="conference"
}
%----------------------------
Blueprint: Cyberinfrastructure Center of Excellence.
Deelman, E.; Mandal, A.; Murillo, A. P.; Nabrzyski, J.; Pascucci, V.; Ricci, R.; Baldin, I.; Sons, S.; Christopherson, L.; Vardeman, C.; Ferreira da Silva, R.; Wyngaard, J.; Petruzza, S.; Rynge, M.; Vahi, K.; Whitcup, W. R.; Drake, J.; and Scott, E.
Zenodo. 2021.
doi
link
bibtex
@Article{ deelman2021blueprint,
Title = {{Blueprint: Cyberinfrastructure Center of Excellence}},
Author = {Deelman, Ewa and Mandal, Anirban and Murillo, Angela P.
and Nabrzyski, Jarek and Pascucci, Valerio and Ricci,
Robert and Baldin, Ilya and Sons, Susan and Christopherson,
Laura and Vardeman, Charles and Ferreira da Silva, Rafael
and Wyngaard, Jane and Petruzza, Steve and Rynge, Mats and
Vahi, Karan and Whitcup, Wendy R. and Drake, Josh and
Scott, Erik},
Journal = {Zenodo},
Year = {2021},
DOI = {10.5281/zenodo.4587866}
}
Building Reproducible Video Streaming Traffic Generators.
Ardi, C.; Hussain, A.; and Schwab, S.
In
Cyber Security Experimentation and Test Workshop, pages 91–95, 2021.
link
bibtex
@inproceedings{ardi2021building,
title={Building Reproducible Video Streaming Traffic Generators},
author={Ardi, Calvin and Hussain, Alefiya and Schwab, Stephen},
booktitle={Cyber Security Experimentation and Test Workshop},
pages={91--95},
year={2021}
}
Building Survivable Software Systems by Automatically Adapting to Sensor Changes.
Shi, Y.; Li, A.; Kumar, T. K. S.; and Knoblock, C. A.
Applied Sciences, 11(11). 2021.
Paper
doi
link
bibtex
1 download
@Article{app11114808,
AUTHOR = {Shi, Yuan and Li, Ang and Kumar, T. K. Satish and Knoblock, Craig A.},
TITLE = {Building Survivable Software Systems by Automatically Adapting to Sensor Changes},
JOURNAL = {Applied Sciences},
VOLUME = {11},
YEAR = {2021},
NUMBER = {11},
ARTICLE-NUMBER = {4808},
URL = {https://www.mdpi.com/2076-3417/11/11/4808},
ISSN = {2076-3417},
DOI = {10.3390/app11114808}
}
CHiSEL: a user-oriented framework for simplifing database evolution.
Schuler, R.; and Kesselman, C.
Distributed and Parallel Databases, 39(2): 483–543. June 2021.
Paper
doi
link
bibtex
@article{schuler_chisel_2021,
title = {{CHiSEL}: a user-oriented framework for simplifing database evolution},
volume = {39},
issn = {0926-8782, 1573-7578},
shorttitle = {{CHiSEL}},
url = {https://link.springer.com/10.1007/s10619-020-07314-x},
doi = {10.1007/s10619-020-07314-x},
language = {en},
number = {2},
urldate = {2022-01-14},
journal = {Distributed and Parallel Databases},
author = {Schuler, Robert and Kesselman, Carl},
month = jun,
year = {2021},
pages = {483--543},
}
COM2SENSE: A Commonsense Reasoning Benchmark with Complementary Sentences.
Singh, S.; Wen, N.; Hou, Y.; Alipoormolabashi, P.; Wu, T.; Ma, X.; and Peng, N.
In
Findings of the Association for Computational Linguistics: ACL-IJCNLP 2021, pages 883–898, August 2021. Association for Computational Linguistics
link
bibtex
@inproceedings{singh-etal-2021-com2sense,
title = "{COM}2{SENSE}: A Commonsense Reasoning Benchmark with Complementary Sentences",
author = "Singh, Shikhar and
Wen, Nuan and
Hou, Yu and
Alipoormolabashi, Pegah and
Wu, Te-lin and
Ma, Xuezhe and
Peng, Nanyun",
booktitle = "Findings of the Association for Computational Linguistics: ACL-IJCNLP 2021",
month = August,
year = "2021",
publisher = "Association for Computational Linguistics",
pages = "883--898",
}
COVID-19 Vaccine Hesitancy on Social Media: Building a Public Twitter Data Set of Antivaccine Content, Vaccine Misinformation, and Conspiracies.
Muric, G.; Wu, Y.; and Ferrara, E.
JMIR Public Health Surveill 2021;7(11):e30642 https://publichealth.jmir.org/2021/11/e30642, 7(11): e30642. nov 2021.
Paper
doi
link
bibtex
@article{Muric2021,
archivePrefix = {arXiv},
arxivId = {2105.05134},
author = {Muric, Goran and Wu, Yusong and Ferrara, Emilio},
doi = {10.2196/30642},
eprint = {2105.05134},
issn = {23692960},
journal = {JMIR Public Health Surveill 2021;7(11):e30642 https://publichealth.jmir.org/2021/11/e30642},
month = {nov},
number = {11},
pages = {e30642},
publisher = {JMIR Public Health and Surveillance},
title = {{COVID-19 Vaccine Hesitancy on Social Media: Building a Public Twitter Data Set of Antivaccine Content, Vaccine Misinformation, and Conspiracies}},
url = {https://publichealth.jmir.org/2021/11/e30642},
volume = {7},
year = {2021}
}
COVID-19 vaccine hesitancy is positively associated with affective wellbeing.
Kejriwal, M.; and Shen, K.
3 2021.
link
bibtex
@misc{kejriwal2021covid,
title={COVID-19 vaccine hesitancy is positively associated with affective wellbeing},
author={Kejriwal, Mayank and Shen, Ke},
year={2021},
month={3},
publisher={PsyArXiv}
}
CSKG: The CommonSense Knowledge Graph.
Ilievski, F.; Szekely, P.; and Zhang, B.
In
Extended Semantic Web Conference (ESWC), 2021.
link
bibtex
@inproceedings{ilievski2021cskg,
title={CSKG: The CommonSense Knowledge Graph},
author={Ilievski, Filip and Szekely, Pedro and Zhang, Bin},
booktitle={Extended Semantic Web Conference (ESWC)},
year={2021}
}
CaSiNo: A Corpus of Campsite Negotiation Dialogues for Automatic Negotiation Systems.
Chawla, K.; Ramirez, J.; Clever, R.; Lucas, G.; May, J.; and Gratch, J.
In
Proceedings of the 2021 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies, pages 3167–3185, Online, June 2021. Association for Computational Linguistics
Paper
link
bibtex
abstract
@inproceedings{chawla-etal-2021-casino,
title = "{C}a{S}i{N}o: A Corpus of Campsite Negotiation Dialogues for Automatic Negotiation Systems",
author = "Chawla, Kushal and
Ramirez, Jaysa and
Clever, Rene and
Lucas, Gale and
May, Jonathan and
Gratch, Jonathan",
booktitle = "Proceedings of the 2021 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies",
month = jun,
year = "2021",
address = "Online",
publisher = "Association for Computational Linguistics",
url = "https://www.aclweb.org/anthology/2021.naacl-main.254",
pages = "3167--3185",
abstract = "Automated systems that negotiate with humans have broad applications in pedagogy and conversational AI. To advance the development of practical negotiation systems, we present CaSiNo: a novel corpus of over a thousand negotiation dialogues in English. Participants take the role of campsite neighbors and negotiate for food, water, and firewood packages for their upcoming trip. Our design results in diverse and linguistically rich negotiations while maintaining a tractable, closed-domain environment. Inspired by the literature in human-human negotiations, we annotate persuasion strategies and perform correlation analysis to understand how the dialogue behaviors are associated with the negotiation performance. We further propose and evaluate a multi-task framework to recognize these strategies in a given utterance. We find that multi-task learning substantially improves the performance for all strategy labels, especially for the ones that are the most skewed. We release the dataset, annotations, and the code to propel future work in human-machine negotiations: https://github.com/kushalchawla/CaSiNo",
}
Automated systems that negotiate with humans have broad applications in pedagogy and conversational AI. To advance the development of practical negotiation systems, we present CaSiNo: a novel corpus of over a thousand negotiation dialogues in English. Participants take the role of campsite neighbors and negotiate for food, water, and firewood packages for their upcoming trip. Our design results in diverse and linguistically rich negotiations while maintaining a tractable, closed-domain environment. Inspired by the literature in human-human negotiations, we annotate persuasion strategies and perform correlation analysis to understand how the dialogue behaviors are associated with the negotiation performance. We further propose and evaluate a multi-task framework to recognize these strategies in a given utterance. We find that multi-task learning substantially improves the performance for all strategy labels, especially for the ones that are the most skewed. We release the dataset, annotations, and the code to propel future work in human-machine negotiations: https://github.com/kushalchawla/CaSiNo
Can Sequence-to-Sequence Models Crack Substitution Ciphers?.
Aldarrab, N.; and May, J.
In
Proceedings of the 59th Annual Meeting of the Association for Computational Linguistics and the 11th International Joint Conference on Natural Language Processing (Volume 1: Long Papers), pages 7226–7235, Online, August 2021. Association for Computational Linguistics
Paper
link
bibtex
abstract
@inproceedings{aldarrab-may-2021-sequence,
title = "Can Sequence-to-Sequence Models Crack Substitution Ciphers?",
author = "Aldarrab, Nada and
May, Jonathan",
booktitle = "Proceedings of the 59th Annual Meeting of the Association for Computational Linguistics and the 11th International Joint Conference on Natural Language Processing (Volume 1: Long Papers)",
month = aug,
year = "2021",
address = "Online",
publisher = "Association for Computational Linguistics",
url = "https://aclanthology.org/2021.acl-long.561",
pages = "7226--7235",
abstract = "Decipherment of historical ciphers is a challenging problem. The language of the target plaintext might be unknown, and ciphertext can have a lot of noise. State-of-the-art decipherment methods use beam search and a neural language model to score candidate plaintext hypotheses for a given cipher, assuming the plaintext language is known. We propose an end-to-end multilingual model for solving simple substitution ciphers. We test our model on synthetic and real historical ciphers and show that our proposed method can decipher text without explicit language identification while still being robust to noise.",
}
Decipherment of historical ciphers is a challenging problem. The language of the target plaintext might be unknown, and ciphertext can have a lot of noise. State-of-the-art decipherment methods use beam search and a neural language model to score candidate plaintext hypotheses for a given cipher, assuming the plaintext language is known. We propose an end-to-end multilingual model for solving simple substitution ciphers. We test our model on synthetic and real historical ciphers and show that our proposed method can decipher text without explicit language identification while still being robust to noise.
Can an Artificial Intelligence Online Engine Diagnose Migraine as well as a Headache Specialist using a Semi-Structured Interview? A Multi-Center, Cross-Sectional Study.
Cowan, R; Rapoport, A; Blythe, J; Rothrick, J; Knievel, K; Peretz, A; Ekpo, E; Sanjanwala, B; and Woldeamanuel, Y
In
CEPHALALGIA, volume 41, pages 280–280, 2021. SAGE PUBLICATIONS LTD 1 OLIVERS YARD, 55 CITY ROAD, LONDON EC1Y 1SP, ENGLAND
link
bibtex
@inproceedings{cowan2021can,
title={Can an Artificial Intelligence Online Engine Diagnose Migraine as well as a Headache Specialist using a Semi-Structured Interview? A Multi-Center, Cross-Sectional Study},
author={Cowan, R and Rapoport, A and Blythe, J and Rothrick, J and Knievel, K and Peretz, A and Ekpo, E and Sanjanwala, B and Woldeamanuel, Y},
booktitle={CEPHALALGIA},
volume={41},
number={1\_ SUPPL},
pages={280--280},
year={2021},
organization={SAGE PUBLICATIONS LTD 1 OLIVERS YARD, 55 CITY ROAD, LONDON EC1Y 1SP, ENGLAND}
}
Case Studies in Experiment Design on a minimega Based Network Emulation Testbed.
Kocoloski, B.; Hussain, A.; Troglia, M.; Ardi, C.; Cheng, S.; DeAngelis, D.; Symonds, C.; Collins, M.; Goodfellow, R.; and Schwab, S.
In
Cyber Security Experimentation and Test Workshop, pages 83–90, 2021.
link
bibtex
@inproceedings{kocoloski2021case,
title={Case Studies in Experiment Design on a minimega Based Network Emulation Testbed},
author={Kocoloski, Brian and Hussain, Alefiya and Troglia, Matthew and Ardi, Calvin and Cheng, Steven and DeAngelis, Dave and Symonds, Christopher and Collins, Michael and Goodfellow, Ryan and Schwab, Stephen},
booktitle={Cyber Security Experimentation and Test Workshop},
pages={83--90},
year={2021}
}
Chhoyhopper: A Moving Target Defense with IPv6.
Rizvi, A.; and Heidemann, J.
Poster abstract and poster at Annual Computer Security Applications Conference, December 2021.
Paper
link
bibtex
abstract
@Misc{Rizvi21a,
author = "{ASM} Rizvi and John Heidemann",
title = "Chhoyhopper: A Moving Target Defense with {IPv6}",
howpublished = "Poster abstract and poster at " # " Annual Computer Security Applications Conference",
month = dec,
year = 2021,
sortdate = "2021-12-07",
project = "ant, sabres",
jsubject = "network_security",
jlocation = "johnh: pafile",
keywords = "moving target, chhoyhopper, ipv6, ssh",
blogurl = "https://ant.isi.edu/blog/?p=1819",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Rizvi21a.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Rizvi21a.pdf",
otherpdfurl = "https://ant.isi.edu/~rizvi/acsac-2021/chhoyhopper-abstract-and-poster.pdf",
abstract = "Services on the public Internet are frequently scanned, then subject
to brute-force and denial-of-service attacks. We would like to run
such services stealthily, available to friends but hidden from adversaries. In this work, we propose a moving target defense named
``Chhoyhopper'' that utilizes the vast IPv6 address space to conceal
publicly available services. The client and server hop to different
IPv6 addresses in a pattern based on a shared, pre-distributed secret
and the time of day. By hopping over a /64 prefix, services cannot
be found by active scanners, and passively observed information
is useless after two minutes. We demonstrate our system with the
two important applications—SSH and HTTPS.",
}
Services on the public Internet are frequently scanned, then subject to brute-force and denial-of-service attacks. We would like to run such services stealthily, available to friends but hidden from adversaries. In this work, we propose a moving target defense named ``Chhoyhopper'' that utilizes the vast IPv6 address space to conceal publicly available services. The client and server hop to different IPv6 addresses in a pattern based on a shared, pre-distributed secret and the time of day. By hopping over a /64 prefix, services cannot be found by active scanners, and passively observed information is useless after two minutes. We demonstrate our system with the two important applications—SSH and HTTPS.
Cognitively Inspired Learning of Incremental Drifting Concepts.
Rostami, M.; and Galstyan, A.
arXiv preprint arXiv:2110.04662. 2021.
link
bibtex
@article{rostami2021cognitively,
title={Cognitively Inspired Learning of Incremental Drifting Concepts},
author={Rostami, Mohammad and Galstyan, Aram},
journal={arXiv preprint arXiv:2110.04662},
year={2021}
}
Collecting, Labeling, and Using Networking Data: the Intersection of AI and Networking.
Heidemann, J.; Mirkovic, J.; Hardaker, W.; and Kallitsis, M.
In
NSF Workshop on AI for Networking, Virtual Event, October 2021. RENCI
Paper
link
bibtex
abstract
@InProceedings{Heidemann21b,
author = "John Heidemann and Jelena Mirkovic and Wes
Hardaker and Michalis Kallitsis",
title = "Collecting, Labeling, and Using Networking Data: the Intersection of {AI} and Networking",
booktitle = "NSF Workshop on AI for Networking",
year = 2021,
sortdate = "2021-10-21",
project = "ant, classnet",
jsubject = "topology_modeling",
month = oct,
address = "Virtual Event",
publisher = "RENCI",
jlocation = "johnh: pafile",
keywords = "classnet, ai, labeled data, data sharing",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Heidemann21b.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Heidemann21b.pdf",
myorganization = "USC/Information Sciences Institute",
copyrightholder = "authors",
abstract = "No abstract, but this two-page white paper examines needs and
opportunities to collect, label, and share networking data
to enable AI-approaches to cybersecurity."
,}
No abstract, but this two-page white paper examines needs and opportunities to collect, label, and share networking data to enable AI-approaches to cybersecurity.
Combining Remote-Sensing-Derived Data and Historical Maps for Long-Term Back-Casting of Urban Extents.
Uhl, J. H.; Leyk, S.; Li, Z.; Duan, W.; Shbita, B.; Chiang, Y.; and Knoblock, C. A.
Remote Sensing, 13(18). 2021.
Paper
doi
link
bibtex
abstract
10 downloads
@Article{rs13183672,
AUTHOR = {Uhl, Johannes H. and Leyk, Stefan and Li, Zekun and Duan, Weiwei and Shbita, Basel and Chiang, Yao-Yi and Knoblock, Craig A.},
TITLE = {Combining Remote-Sensing-Derived Data and Historical Maps for Long-Term Back-Casting of Urban Extents},
JOURNAL = {Remote Sensing},
VOLUME = {13},
YEAR = {2021},
NUMBER = {18},
ARTICLE-NUMBER = {3672},
URL = {https://www.mdpi.com/2072-4292/13/18/3672},
ISSN = {2072-4292},
ABSTRACT = {Spatially explicit, fine-grained datasets describing historical urban extents are rarely available prior to the era of operational remote sensing. However, such data are necessary to better understand long-term urbanization and land development processes and for the assessment of coupled nature–human systems (e.g., the dynamics of the wildland–urban interface). Herein, we propose a framework that jointly uses remote-sensing-derived human settlement data (i.e., the Global Human Settlement Layer, GHSL) and scanned, georeferenced historical maps to automatically generate historical urban extents for the early 20th century. By applying unsupervised color space segmentation to the historical maps, spatially constrained to the urban extents derived from the GHSL, our approach generates historical settlement extents for seamless integration with the multi-temporal GHSL. We apply our method to study areas in countries across four continents, and evaluate our approach against historical building density estimates from the Historical Settlement Data Compilation for the US (HISDAC-US), and against urban area estimates from the History Database of the Global Environment (HYDE). Our results achieve Area-under-the-Curve values >0.9 when comparing to HISDAC-US and are largely in agreement with model-based urban areas from the HYDE database, demonstrating that the integration of remote-sensing-derived observations and historical cartographic data sources opens up new, promising avenues for assessing urbanization and long-term land cover change in countries where historical maps are available.},
DOI = {10.3390/rs13183672}
}
Spatially explicit, fine-grained datasets describing historical urban extents are rarely available prior to the era of operational remote sensing. However, such data are necessary to better understand long-term urbanization and land development processes and for the assessment of coupled nature–human systems (e.g., the dynamics of the wildland–urban interface). Herein, we propose a framework that jointly uses remote-sensing-derived human settlement data (i.e., the Global Human Settlement Layer, GHSL) and scanned, georeferenced historical maps to automatically generate historical urban extents for the early 20th century. By applying unsupervised color space segmentation to the historical maps, spatially constrained to the urban extents derived from the GHSL, our approach generates historical settlement extents for seamless integration with the multi-temporal GHSL. We apply our method to study areas in countries across four continents, and evaluate our approach against historical building density estimates from the Historical Settlement Data Compilation for the US (HISDAC-US), and against urban area estimates from the History Database of the Global Environment (HYDE). Our results achieve Area-under-the-Curve values >0.9 when comparing to HISDAC-US and are largely in agreement with model-based urban areas from the HYDE database, demonstrating that the integration of remote-sensing-derived observations and historical cartographic data sources opens up new, promising avenues for assessing urbanization and long-term land cover change in countries where historical maps are available.
Commonsense-Focused Dialogues for Response Generation An Empirical Study.
Zhou, P.; Gopalakrishnan, K.; Hedayatnia, B.; Kim, S.; Pujara, J.; Ren, X.; Liu, Y.; and Hakkani-Tur, D.
In
Proceedings of the Special Interest Group on Discourse and Dialogue, 2021.
link
bibtex
@inproceedings{zhou:dial21,
Author = "Zhou, Pei and Gopalakrishnan, Karthik and Hedayatnia, Behnam and Kim, Seokhwan and Pujara, Jay and Ren, Xiang and Liu, Yang and Hakkani-Tur, Dilek",
acceptrate = "39\%",
bib_url = "/pubs/bib/zhou-dial21.bib",
booktitle = "Proceedings of the Special Interest Group on Discourse and Dialogue",
code_url = "https://github.com/alexa/commonsense-dialogues",
pdf_url = "/pubs/2021/zhou-dial21/zhou-dial21.pdf",
sec = "conf",
title = "Commonsense-Focused Dialogues for Response Generation An Empirical Study",
video_url = "https://www.youtube.com/watch?v=dfYt0OfyTDA",
year = "2021"
}
Constructing driver Hamiltonians for optimization problems with linear constraints.
Leipold, H.; and Spedalieri, F. M
Quantum Science and Technology, 7(1): 015013. 2021.
link
bibtex
@article{leipold2021constructing,
title={Constructing driver Hamiltonians for optimization problems with linear constraints},
author={Leipold, Hannes and Spedalieri, Federico M},
journal={Quantum Science and Technology},
volume={7},
number={1},
pages={015013},
year={2021},
publisher={IOP Publishing}
}
CoreQuisite: Circumstantial Preconditions of Common Sense Knowledge.
Qasemi, E.; Ilievski, F.; Chen, M.; and Szekely, P.
arXiv preprint arXiv:2104.08712. 2021.
link
bibtex
@article{qasemi2021corequisite,
title={CoreQuisite: Circumstantial Preconditions of Common Sense Knowledge},
author={Qasemi, Ehsan and Ilievski, Filip and Chen, Muhao and Szekely, Pedro},
journal={arXiv preprint arXiv:2104.08712},
year={2021}
}
Creating and Querying Personalized Versions of Wikidata on a Laptop.
Chalupsky, H.; Szekely, P.; Ilievski, F.; Garijo, D.; and Shenoy, K.
2021.
![Creating and Querying Personalized Versions of Wikidata on a Laptop [pdf]](//bibbase.org/img/filetypes/pdf.svg "Paper")
Paper
link
bibtex
@misc{chalupsky2021creating,
title={Creating and Querying Personalized Versions of Wikidata on a Laptop},
author={Hans Chalupsky and Pedro Szekely and Filip Ilievski and Daniel Garijo and Kartik Shenoy},
year={2021},
eprint={2108.07119},
archivePrefix={arXiv},
url={http://ceur-ws.org/Vol-2982/paper-4.pdf}
}
CrisisFlow: Multimodal Representation Learning Workflow for Crisis Computing.
Krawczuk, P.; Nagarkar, S.; and Deelman, E.
In
2021 IEEE 17th International Conference on eScience (eScience), pages 264-266, 2021.
Funding Acknowledgments: NSF 1664162
doi
link
bibtex
@InProceedings{ krawczuk-escience-2021,
Author = {Krawczuk, Patrycja and Nagarkar, Shubham and Deelman,
Ewa},
BookTitle = {2021 IEEE 17th International Conference on eScience
(eScience)},
Title = {CrisisFlow: Multimodal Representation Learning Workflow
for Crisis Computing},
Year = {2021},
Volume = {},
Number = {},
Pages = {264-266},
DOI = {10.1109/eScience51609.2021.00052},
Note = {Funding Acknowledgments: NSF 1664162}
}
Cross-lingual Entity Alignment with Incidental Supervision.
Chen, M.; Shi, W.; Zhou, B.; and Roth, D.
In
EACL, pages 645–658, 2021.
link
bibtex
@inproceedings{chen2021cross,
title={Cross-lingual Entity Alignment with Incidental Supervision},
author={Chen, Muhao and Shi, Weijia and Zhou, Ben and Roth, Dan},
booktitle={EACL},
pages={645--658},
year={2021}
}
CryoCiM: Cryogenic Compute-in-Memory based on the Quantum Anomalous Hall Effect.
Alam, S.; Islam, M. M.; Amin, N.; Hossain, M. S.; Jaiswal, A.; and Aziz, A.
arXiv preprint arXiv:2112.00124. 2021.
link
bibtex
@article{alam2021cryocim,
title={CryoCiM: Cryogenic Compute-in-Memory based on the Quantum Anomalous Hall Effect},
author={Alam, Shamiul and Islam, Md Mazharul and Amin, Nazmul and Hossain, Md Shafayat and Jaiswal, Akhilesh and Aziz, Ahmedullah},
journal={arXiv preprint arXiv:2112.00124},
year={2021}
}
D-MRAM devices and methods for replicating data and read and write operations.
Jaiswal, A. R.; and Bhargava, M.
January~19 2021.
US Patent 10,896,730
link
bibtex
@misc{jaiswal2021d,
title={D-MRAM devices and methods for replicating data and read and write operations},
author={Jaiswal, Akhilesh Ramlaut and Bhargava, Mudit},
year={2021},
month=jan # "~19",
publisher={Google Patents},
note={US Patent 10,896,730}
}
DEVELOPING NEURAL REPRESENTATIONS FOR ROBUST CHILD-ADULT DIARIZATION.
Krishnamachari, S.; Kumar, M.; Kim, S. H.; Lord, C.; and Narayanan, S.
In
In proceedings of IEEE Spoken Language Technology Workshop, Jan 2021.
link
bibtex
@inproceedings{Krishnamachari2021DEVELOPINGNEURALREPRESENTATIONSFOR,
author = {Krishnamachari, Suchitra and Kumar, Manoj and Kim, So Hyun and Lord, Catherine and Narayanan, Shrikanth },
booktitle = {In proceedings of IEEE Spoken Language Technology Workshop},
title = {DEVELOPING NEURAL REPRESENTATIONS FOR ROBUST CHILD-ADULT DIARIZATION},
year = {2021},
month = {Jan}
}
De novo 3D models of SARS-CoV-2 RNA elements from consensus experimental secondary structures.
Rangan, R.; Watkins, A. M; Chacon, J.; Kretsch, R.; Kladwang, W.; Zheludev, I. N; Townley, J.; Rynge, M.; Thain, G.; and Das, R.
Nucleic Acids Research, 49(6): 3092-3108. 03 2021.
Paper
doi
link
bibtex
abstract
@Article{ rangan-nucleicacids-2021,
Author = {Rangan, Ramya and Watkins, Andrew M and Chacon, Jose and
Kretsch, Rachael and Kladwang, Wipapat and Zheludev, Ivan N
and Townley, Jill and Rynge, Mats and Thain, Gregory and
Das, Rhiju},
Title = "{De novo 3D models of SARS-CoV-2 RNA elements from
consensus experimental secondary structures}",
Journal = {Nucleic Acids Research},
Volume = {49},
Number = {6},
Pages = {3092-3108},
Year = {2021},
Month = {03},
Abstract = "{The rapid spread of COVID-19 is motivating development of
antivirals targeting conserved SARS-CoV-2 molecular
machinery. The SARS-CoV-2 genome includes conserved RNA
elements that offer potential small-molecule drug targets,
but most of their 3D structures have not been
experimentally characterized. Here, we provide a
compilation of chemical mapping data from our and other
labs, secondary structure models, and 3D model ensembles
based on Rosetta's FARFAR2 algorithm for SARS-CoV-2 RNA
regions including the individual stems SL1-8 in the
extended 5′ UTR; the reverse complement of the 5′ UTR
SL1-4; the frameshift stimulating element (FSE); and the
extended pseudoknot, hypervariable region, and s2m of the
3′ UTR. For eleven of these elements (the stems in
SL1–8, reverse complement of SL1–4, FSE, s2m and 3′
UTR pseudoknot), modeling convergence supports the accuracy
of predicted low energy states; subsequent cryo-EM
characterization of the FSE confirms modeling accuracy. To
aid efforts to discover small molecule RNA binders guided
by computational models, we provide a second set of
similarly prepared models for RNA riboswitches that bind
small molecules. Both datasets (‘FARFAR2-SARS-CoV-2’,
https://github.com/DasLab/FARFAR2-SARS-CoV-2; and
‘FARFAR2-Apo-Riboswitch’, at
https://github.com/DasLab/FARFAR2-Apo-Riboswitch’)
include up to 400 models for each RNA element, which may
facilitate drug discovery approaches targeting dynamic
ensembles of RNA molecules.}",
ISSN = {0305-1048},
DOI = {10.1093/nar/gkab119},
URL = {https://doi.org/10.1093/nar/gkab119},
EPrint = {https://academic.oup.com/nar/article-pdf/49/6/3092/36884656/gkab119.pdf}
}
The rapid spread of COVID-19 is motivating development of antivirals targeting conserved SARS-CoV-2 molecular machinery. The SARS-CoV-2 genome includes conserved RNA elements that offer potential small-molecule drug targets, but most of their 3D structures have not been experimentally characterized. Here, we provide a compilation of chemical mapping data from our and other labs, secondary structure models, and 3D model ensembles based on Rosetta's FARFAR2 algorithm for SARS-CoV-2 RNA regions including the individual stems SL1-8 in the extended 5′ UTR; the reverse complement of the 5′ UTR SL1-4; the frameshift stimulating element (FSE); and the extended pseudoknot, hypervariable region, and s2m of the 3′ UTR. For eleven of these elements (the stems in SL1–8, reverse complement of SL1–4, FSE, s2m and 3′ UTR pseudoknot), modeling convergence supports the accuracy of predicted low energy states; subsequent cryo-EM characterization of the FSE confirms modeling accuracy. To aid efforts to discover small molecule RNA binders guided by computational models, we provide a second set of similarly prepared models for RNA riboswitches that bind small molecules. Both datasets (‘FARFAR2-SARS-CoV-2’, https://github.com/DasLab/FARFAR2-SARS-CoV-2; and ‘FARFAR2-Apo-Riboswitch’, at https://github.com/DasLab/FARFAR2-Apo-Riboswitch’) include up to 400 models for each RNA element, which may facilitate drug discovery approaches targeting dynamic ensembles of RNA molecules.
Decoupling Global and Local Representations via Invertible Generative Flows.
Ma, X.; Kong, X.; Zhang, S.; and Hovy, E.
In
Proceedings of the 9th International Conference on Learning Representations (ICLR-2021), May 2021.
link
bibtex
@inproceedings{decoupling2021,
title = {Decoupling Global and Local Representations via Invertible Generative Flows},
author = {Ma, Xuezhe and Kong, Xiang and Zhang, Shanghang and Hovy, Eduard},
booktitle = {Proceedings of the 9th International Conference on Learning Representations (ICLR-2021)},
year = {2021},
month = {May},
}
DeepSQA: Understanding Sensor Data via Question Answering.
Xing, T.; Garcia, L.; Cerutti, F.; Kaplan, L.; Preece, A.; and Srivastava, M.
In
Proceedings of the International Conference on Internet-of-Things Design and Implementation, pages 106–118, 2021.
link
bibtex
@inproceedings{xing2021deepsqa,
title={DeepSQA: Understanding Sensor Data via Question Answering},
author={Xing, Tianwei and Garcia, Luis and Cerutti, Federico and Kaplan, Lance and Preece, Alun and Srivastava, Mani},
booktitle={Proceedings of the International Conference on Internet-of-Things Design and Implementation},
pages={106--118},
year={2021}
}
Defending Web Servers Against Flash Crowd Attacks.
Tandon, R.; Palia, A.; Ramani, J.; Paulsen, B.; Bartlett, G.; and Mirkovic, J.
In Sako, K.; and Tippenhauer, N. O., editor(s),
Applied Cryptography and Network Security, pages 338–361, Cham, 2021. Springer International Publishing
link
bibtex
abstract
@InProceedings{10.1007/978-3-030-78375-4_14,
author="Tandon, Rajat
and Palia, Abhinav
and Ramani, Jaydeep
and Paulsen, Brandon
and Bartlett, Genevieve
and Mirkovic, Jelena",
editor="Sako, Kazue
and Tippenhauer, Nils Ole",
title="Defending Web Servers Against Flash Crowd Attacks",
booktitle="Applied Cryptography and Network Security",
year="2021",
publisher="Springer International Publishing",
address="Cham",
pages="338--361",
abstract="A flash crowd attack (FCA) floods a service, such as a Web server, with well-formed requests, generated by numerous bots. FCA traffic is difficult to filter, since individual attack and legitimate service requests look identical. We propose robust and reliable models of human interaction with server, which can identify and block a wide variety of bots. We implement the models in a system called FRADE, and evaluate them on three Web servers with different server applications and content. Our results show that FRADE detects both naive and sophisticated bots within seconds, and successfully filters out attack traffic. FRADE significantly raises the bar for a successful attack, by forcing attackers to deploy at least three orders of magnitude larger botnets than today.",
isbn="978-3-030-78375-4"
}
A flash crowd attack (FCA) floods a service, such as a Web server, with well-formed requests, generated by numerous bots. FCA traffic is difficult to filter, since individual attack and legitimate service requests look identical. We propose robust and reliable models of human interaction with server, which can identify and block a wide variety of bots. We implement the models in a system called FRADE, and evaluate them on three Web servers with different server applications and content. Our results show that FRADE detects both naive and sophisticated bots within seconds, and successfully filters out attack traffic. FRADE significantly raises the bar for a successful attack, by forcing attackers to deploy at least three orders of magnitude larger botnets than today.
Demonstration of a Tunable Optical Correlation of a 10–15 Gbaud QPSK Data Signal using Nonlinear Wave Mixing at a Remotely Controlled Node.
Alishahi, F.; Zou, K.; Minoofar, A.; Zhou, H.; Tur, M.; Habif, J. L; and Willner, A. E
In
2021 IEEE Photonics Conference (IPC), pages 1–2, 2021. IEEE
link
bibtex
@inproceedings{alishahi2021demonstration,
title={Demonstration of a Tunable Optical Correlation of a 10--15 Gbaud QPSK Data Signal using Nonlinear Wave Mixing at a Remotely Controlled Node},
author={Alishahi, Fatemeh and Zou, Kaiheng and Minoofar, Amir and Zhou, Huibin and Tur, Moshe and Habif, Jonathan L and Willner, Alan E},
booktitle={2021 IEEE Photonics Conference (IPC)},
pages={1--2},
year={2021},
organization={IEEE}
}
Deploying per-packet telemetry in a long-haul network: the AmLight use case.
Bezerra, J.; Brito, I.; Quintana, A.; Ibarra, J.; Chergarova, V.; Frez, R.; Morgan, H.; LeClerc, M.; and Paneri, A.
In
2021 IEEE Workshop on Innovating the Network for Data-Intensive Science (INDIS), pages 44–49, 2021. IEEE
link
bibtex
@inproceedings{bezerra2021deploying,
title={Deploying per-packet telemetry in a long-haul network: the AmLight use case},
author={Bezerra, Jeronimo and Brito, Italo and Quintana, Arturo and Ibarra, Julio and Chergarova, Vasilka and Frez, Renata and Morgan, Heidi and LeClerc, Marc and Paneri, Arun},
booktitle={2021 IEEE Workshop on Innovating the Network for Data-Intensive Science (INDIS)},
pages={44--49},
year={2021},
organization={IEEE}
}
Designing for Tussle in Encrypted DNS.
Hounsel, A.; Schmitt, P.; Borgolte, K.; and Feamster, N.
In
Proceedings of the Twentieth ACM Workshop on Hot Topics in Networks, of
HotNets '21, November 2021.
link
bibtex
@inproceedings{hounsel2021tussles,
title={Designing for Tussle in Encrypted {DNS}},
author={Austin Hounsel and Paul Schmitt and Kevin Borgolte and Nick Feamster},
booktitle = {Proceedings of the Twentieth ACM Workshop on Hot Topics in Networks},
series = {HotNets '21},
month = nov,
year = 2021
}
Detecting Polarized Topics Using Partisanship-aware Contextualized Topic Embeddings.
He, Z.; Mokhberian, N.; Câmara, A.; Abeliuk, A.; and Lerman, K.
In
Findings of the Association for Computational Linguistics: EMNLP 2021, pages 2102–2118, 2021.
link
bibtex
@inproceedings{he2021detecting,
title={Detecting Polarized Topics Using Partisanship-aware Contextualized Topic Embeddings},
author={He, Zihao and Mokhberian, Negar and C{\^a}mara, Ant{\'o}nio and Abeliuk, Andres and Lerman, Kristina},
booktitle={Findings of the Association for Computational Linguistics: EMNLP 2021},
pages={2102--2118},
year={2021}
}
Detecting cryptocurrency pump-and-dump frauds using market and social signals.
Nghiem, H.; Muric, G.; Morstatter, F.; and Ferrara, E.
Expert Systems with Applications, 182: 115284. 2021.
link
bibtex
@article{nghiem2021detecting,
title={Detecting cryptocurrency pump-and-dump frauds using market and social signals},
author={Nghiem, Huy and Muric, Goran and Morstatter, Fred and Ferrara, Emilio},
journal={Expert Systems with Applications},
volume={182},
pages={115284},
year={2021},
publisher={Pergamon}
}
Detection and Continual Learning of Novel Face Presentation Attacks.
Rostami, M.; Spinoulas, L.; Hussein, M.; and Abd-Almageed, W.
International Conference on Computer Vision. 2021.
link
bibtex
@article{rostami_iccv_2021,
title = {Detection and Continual Learning of Novel Face Presentation Attacks},
author = {Mohammad Rostami and Leonidas Spinoulas and
Mohamed Hussein and Wael Abd-Almageed},
journal = {International Conference on Computer Vision},
year = {2021},
keywords="conference"
}
Detection and Continual Learning of Novel Face Presentation Attacks.
Rostami, M.; Spinoulas, L.; Hussein, M.; Mathai, J.; and Abd-Almageed, W.
In pages 14851–14860, 2021.
link
bibtex
@inproceedings{rostamiDetectionContinualLearning2021,
title = {Detection and {Continual} {Learning} of {Novel} {Face} {Presentation} {Attacks}},
author = {Rostami, Mohammad and Spinoulas, Leonidas and Hussein, Mohamed and Mathai, Joe and Abd-Almageed, Wael},
year = {2021},
pages = {14851--14860}
}
Detection and localization of near infrared lasers from atmospheric laser scattering.
Rittenbach, A.; Finnerty, C.; and Habif, J. L.
In Buller, G. S.; Hollins, R. C.; Lamb, R. A.; and Laurenzis, M., editor(s),
Emerging Imaging and Sensing Technologies for Security and Defence VI, volume 11868, pages 22 – 32, 2021. International Society for Optics and Photonics, SPIE
Paper
doi
link
bibtex
@inproceedings{10.1117/12.2596824,
author = {Andrew Rittenbach and Connor Finnerty and Jonathan L. Habif},
title = {{Detection and localization of near infrared lasers from atmospheric laser scattering}},
volume = {11868},
booktitle = {Emerging Imaging and Sensing Technologies for Security and Defence VI},
editor = {Gerald S. Buller and Richard C. Hollins and Robert A. Lamb and Martin Laurenzis},
organization = {International Society for Optics and Photonics},
publisher = {SPIE},
pages = {22 -- 32},
keywords = {near infrared laser detection, atmospheric scattering, near infrared laser localization, mie scattering},
year = {2021},
doi = {10.1117/12.2596824},
URL = {https://doi.org/10.1117/12.2596824}
}
Determining quantum Monte Carlo simulability with geometric phases.
Hen, I.
Phys. Rev. Research, 3: 023080. Apr 2021.
Paper
doi
link
bibtex
@article{PhysRevResearch.3.023080,
title = {Determining quantum Monte Carlo simulability with geometric phases},
author = {Hen, Itay},
journal = {Phys. Rev. Research},
volume = {3},
issue = {2},
pages = {023080},
numpages = {9},
year = {2021},
month = {Apr},
publisher = {American Physical Society},
doi = {10.1103/PhysRevResearch.3.023080},
url = {https://link.aps.org/doi/10.1103/PhysRevResearch.3.023080}
}
Dimensions of commonsense knowledge.
Ilievski, F.; Oltramari, A.; Ma, K.; Zhang, B.; McGuinness, D. L; and Szekely, P.
arXiv preprint arXiv:2101.04640. 2021.
link
bibtex
@article{ilievski2021dimensions,
title={Dimensions of commonsense knowledge},
author={Ilievski, Filip and Oltramari, Alessandro and Ma, Kaixin and Zhang, Bin and McGuinness, Deborah L and Szekely, Pedro},
journal={arXiv preprint arXiv:2101.04640},
year={2021}
}
Disaggregation via Gaussian regression for robust analysis of heterogeneous data.
Alipourfard, N.; Burghardt, K.; and Lerman, K.
Handbook of Computational Social Science, Volume 2: Data Science, Statistical Modelling, and Machine Learning Methods. 2021.
link
bibtex
@article{alipourfard2021DoGR,
title={Disaggregation via Gaussian regression for robust analysis of heterogeneous data},
author={Alipourfard, Nazanin and Burghardt, Keith and Lerman, Kristina},
journal={Handbook of Computational Social Science, Volume 2: Data Science, Statistical Modelling, and Machine Learning Methods},
year={2021},
publisher={Routledge}
}
Disaggregation via Gaussian regression for robust analysis of heterogeneous data.
Routledge, Abingdon-on-Thames, UK, 2021.
link
bibtex
@book{dogr,
Title={Disaggregation via Gaussian regression for robust analysis of heterogeneous data},
Authors={Nazanin Alipourfard and Keith Burghardt and Kristina Lerman},
Year={2021},
Booktitle={Handbook of Computational Social Science, Volume 2: Data Science, Statistical Modelling, and Machine Learning Methods},
Publisher={Routledge},
Address={Abingdon-on-Thames, UK}
}
Discol: Toward engaging dialogue systems through conversational line guided response generation.
Ghazarian, S.; Liu, Z.; Chakrabarty, T.; Ma, X.; Galstyan, A.; and Peng, N.
In
NAACL-HLT'21 (Demo Track), 2021.
link
bibtex
@inproceedings{ghazarian2021discol,
title={Discol: Toward engaging dialogue systems through conversational line guided response generation},
author={Ghazarian, Sarik and Liu, Zixi and Chakrabarty, Tuhin and Ma, Xuezhe and Galstyan, Aram and Peng, Nanyun},
booktitle={NAACL-HLT'21 (Demo Track)},
year={2021}
}
Disrupting the COVID-19 Misinfodemic With Network Interventions: Network Solutions for Network Problems.
Young, L. E; Sidnam-Mauch, E.; Twyman, M.; Wang, L.; Xu, J. J.; Sargent, M.; Valente, T. W; Ferrara, E.; Fulk, J.; and Monge, P.
American journal of public health, 111(3): 514–519. 2021.
link
bibtex
@article{young2021disrupting,
title={Disrupting the COVID-19 Misinfodemic With Network Interventions: Network Solutions for Network Problems},
author={Young, Lindsay E and Sidnam-Mauch, Emily and Twyman, Marlon and Wang, Liyuan and Xu, Jackie Jingyi and Sargent, Matthew and Valente, Thomas W and Ferrara, Emilio and Fulk, Janet and Monge, Peter},
journal={American journal of public health},
volume={111},
number={3},
pages={514--519},
year={2021},
publisher={American Public Health Association}
}
Distributed and Heterogeneous SAR Backprojection with Halide.
Imes, C.; Li, T.; Glines, M.; Khan, R.; and Walters, J. P.
In
2021 IEEE High Performance Extreme Computing Conference (HPEC), pages 1–9, 2021. IEEE
link
bibtex
@inproceedings{imes2021distributed,
title={Distributed and Heterogeneous SAR Backprojection with Halide},
author={Imes, Connor and Li, Tzu-Mao and Glines, Mark and Khan, Rishi and Walters, John Paul},
booktitle={2021 IEEE High Performance Extreme Computing Conference (HPEC)},
pages={1--9},
year={2021},
organization={IEEE}
}
Do You Really Like Me? Anycast Latency and Root DNS Popularity.
Heidemann, J.; Moura, G. C. M.; and Hardaker, W.
Presentation at DINR, Workshop on DNS and Internet Naming Research Directions, November 2021.
Paper
link
bibtex
abstract
@Misc{Heidemann21c,
author = "John Heidemann and Giovane C. M. Moura and
Wes Hardaker",
title = "Do You Really Like Me? Anycast Latency and Root DNS Popularity",
howpublished = "Presentation at DINR, Workshop on DNS and Internet
Naming Research Directions",
month = nov,
year = 2021,
sortdate = "2021-11-16",
project = "ant, ddidd, diiner",
jsubject = "topology_modeling",
jlocation = "johnh: pafile",
keywords = "dns, root server system, preference",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Heidemann21c.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Heidemann21c.pdf",
myorganization = "USC/Information Sciences Institute",
copyrightholder = "authors",
abstract = "No abstract, but this one-page abstract examines
workload across root servers, showing deployment of
new sites lowers latency and draws more traffic."
,}
No abstract, but this one-page abstract examines workload across root servers, showing deployment of new sites lowers latency and draws more traffic.
Domain Adaptation for Sentiment Analysis Using Increased Intraclass Separation.
Rostami, M.; and Galstyan, A.
arXiv preprint arXiv:2107.01598. 2021.
link
bibtex
@article{rostami2021domain,
title={Domain Adaptation for Sentiment Analysis Using Increased Intraclass Separation},
author={Rostami, Mohammad and Galstyan, Aram},
journal={arXiv preprint arXiv:2107.01598},
year={2021}
}
EPS: Automated Feature Selection in Case-Control Studies using Extreme Pseudo-Sampling.
Shemirani, R.; Wenric, S.; E.Kenny, E.; and Ambite, J. L.
Bioinformatics. 2021.
doi
link
bibtex
@Article{shemirani2021:eps,
author = {Ruhollah Shemirani and Stephane Wenric and Eimear E.Kenny and Jos\'{e} Luis Ambite},
title = {EPS: Automated Feature Selection in Case-Control Studies using Extreme Pseudo-Sampling},
journal = {Bioinformatics},
year = {2021},
doi = {10.1093/bioinformatics/btab214},
}
Efficient Processing of Streaming Data using Multiple Abstractions.
Qadeer, A.; and Heidemann, J.
In
Proceedings of the IEEE International Conference on Cloud Computing, pages 157–167, Virtual, September 2021. IEEE
Special paper award
Paper
doi
link
bibtex
abstract
@InProceedings{Qadeer21b,
author = "Abdul Qadeer and John Heidemann",
title = "Efficient Processing of Streaming Data using Multiple Abstractions",
booktitle = "Proceedings of the " # " IEEE International Conference on Cloud Computing",
year = 2021,
sortdate = "2021-09-05",
project = "ant, lacanic, gawseed",
jsubject = "network_big_data",
pages = "157--167",
note = "Special paper award",
month = sep,
address = "Virtual",
publisher = "IEEE",
jlocation = "johnh: pafile",
keywords = "big data, hadoop, plumb, DNS, streaming data,
data processing, workflow",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Qadeer21b.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Qadeer21b.pdf",
doi = "https://doi.org/10.1109/CLOUD53861.2021.00029",
blogurl = "https://ant.isi.edu/blog/?p=1760",
abstract = "Large websites and distributed systems employ sophisticated analytics
to evaluate successes to celebrate and problems to be addressed. As
analytics grow, different teams often require different frameworks,
with dozens of packages supporting with streaming and batch
processing, SQL and no-SQL. Bringing multiple frameworks to bear on a
large, changing dataset often create challenges where data
transitions---these impedance mismatches can create brittle glue logic
and performance problems that consume developer time. We propose
Plumb, a meta-framework that can bridge three different abstractions
to meet the needs of a large class of applications in a common
workflow. \emph{Large-block streaming} (Block-Streamin) is
suitable for single-pass applications that care about the temporal and
spatial locality. \emph{Windowed-Streaming} allows applications
to process a group of data and many reductions. \emph{Stateful-Streaming}
enables applications to keep a long-term
state and always-on behavior. We show that it is possible to bridge
abstractions, with a common, high-level workflow specification, while
the system transitions data batch processing and block- and
record-level streaming as required. The challenge in bridging
abstractions is to minimize latency while allowing applications to
select between sequential and parallel operation, while handling
out-of-order data delivery, component failures, and providing clear
semantics in the face of missing data. We demonstrate these
abstractions evaluating a 10-stage workflow of DNS analytics that has
been in production use with Plumb for 2 years, comparing to a brittle
hand-built system that has run for more than 3 years.",
}
Large websites and distributed systems employ sophisticated analytics to evaluate successes to celebrate and problems to be addressed. As analytics grow, different teams often require different frameworks, with dozens of packages supporting with streaming and batch processing, SQL and no-SQL. Bringing multiple frameworks to bear on a large, changing dataset often create challenges where data transitions—these impedance mismatches can create brittle glue logic and performance problems that consume developer time. We propose Plumb, a meta-framework that can bridge three different abstractions to meet the needs of a large class of applications in a common workflow. \emphLarge-block streaming (Block-Streamin) is suitable for single-pass applications that care about the temporal and spatial locality. \emphWindowed-Streaming allows applications to process a group of data and many reductions. \emphStateful-Streaming enables applications to keep a long-term state and always-on behavior. We show that it is possible to bridge abstractions, with a common, high-level workflow specification, while the system transitions data batch processing and block- and record-level streaming as required. The challenge in bridging abstractions is to minimize latency while allowing applications to select between sequential and parallel operation, while handling out-of-order data delivery, component failures, and providing clear semantics in the face of missing data. We demonstrate these abstractions evaluating a 10-stage workflow of DNS analytics that has been in production use with Plumb for 2 years, comparing to a brittle hand-built system that has run for more than 3 years.
Emergence of Structural Inequalities in Scientific Citation Networks.
Nettasinghe, B.; Alipourfard, N.; Krishnamurthy, V.; and Lerman, K.
arXiv preprint arXiv:2103.10944. 2021.
link
bibtex
@article{nettasinghe2021emergence,
title={Emergence of Structural Inequalities in Scientific Citation Networks},
author={Nettasinghe, Buddhika and Alipourfard, Nazanin and Krishnamurthy, Vikram and Lerman, Kristina},
journal={arXiv preprint arXiv:2103.10944},
year={2021}
}
Emerging Frameworks for Advancing Scientific Workflows Research, Development, and Education.
Casanova, H.; Deelman, E.; Gesing, S.; Hildreth, M.; Hudson, S.; Koch, W.; Larson, J.; McDowell, M. A.; Meyers, N.; Navarro, J.; Papadimitriou, G.; Tanaka, R.; Taylor, I.; Thain, D.; Wild, S. M.; Filgueira, R.; and da Silva, R. F.
In
2021 IEEE Workshop on Workflows in Support of Large-Scale Science (WORKS), pages 74-80, 2021.
Funding Acknowledgments: DOE DE-SC0012636, NSF 1664162
doi
link
bibtex
@InProceedings{ casanova-works-2021,
Author = {Casanova, Henri and Deelman, Ewa and Gesing, Sandra and
Hildreth, Michael and Hudson, Stephen and Koch, William and
Larson, Jeffrey and McDowell, Mary Ann and Meyers, Natalie
and Navarro, John-Luke and Papadimitriou, George and
Tanaka, Ryan and Taylor, Ian and Thain, Douglas and Wild,
Stefan M. and Filgueira, Rosa and da Silva, Rafael
Ferreira},
BookTitle = {2021 IEEE Workshop on Workflows in Support of Large-Scale
Science (WORKS)},
Title = {Emerging Frameworks for Advancing Scientific Workflows
Research, Development, and Education},
Year = {2021},
Volume = {},
Number = {},
Pages = {74-80},
DOI = {10.1109/WORKS54523.2021.00015},
Note = {Funding Acknowledgments: DOE DE-SC0012636, NSF 1664162}
}
Emerging applications of machine learning in food safety.
Deng, X.; Cao, S.; and Horn, A. L
Annual Review of Food Science and Technology, 12: 513–538. 2021.
link
bibtex
@article{deng2021emerging,
title={Emerging applications of machine learning in food safety},
author={Deng, Xiangyu and Cao, Shuhao and Horn, Abigail L},
journal={Annual Review of Food Science and Technology},
volume={12},
pages={513--538},
year={2021},
publisher={Annual Reviews}
}
Empirical Best Practices On Using Product-Specific Schema.org.
Kejriwal, M.; Selvam, R. K.; Ni, C.; and Torzec, N.
In
Thirty-Fifth AAAI Conference on Artificial Intelligence, AAAI 2021, Thirty-Third Conference on Innovative Applications of Artificial Intelligence, IAAI 2021, The Eleventh Symposium on Educational Advances in Artificial Intelligence, EAAI 2021, Virtual Event, February 2-9, 2021, pages 15452–15457, 2021. AAAI Press
Paper
link
bibtex
1 download
@inproceedings{DBLP:conf/aaai/KejriwalSNT21,
author = {Mayank Kejriwal and
Ravi Kiran Selvam and
Chien{-}Chun Ni and
Nicolas Torzec},
title = {Empirical Best Practices On Using Product-Specific Schema.org},
booktitle = {Thirty-Fifth {AAAI} Conference on Artificial Intelligence, {AAAI}
2021, Thirty-Third Conference on Innovative Applications of Artificial
Intelligence, {IAAI} 2021, The Eleventh Symposium on Educational Advances
in Artificial Intelligence, {EAAI} 2021, Virtual Event, February 2-9,
2021},
pages = {15452--15457},
publisher = {{AAAI} Press},
year = {2021},
url = {https://ojs.aaai.org/index.php/AAAI/article/view/17816},
timestamp = {Mon, 07 Jun 2021 01:00:00 +0200},
biburl = {https://dblp.org/rec/conf/aaai/KejriwalSNT21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Encryption without Centralization: Distributing DNS Queries Across Recursive Resolvers.
Hounsel, A.; Schmitt, P.; Borgolte, K.; and Feamster, N.
In
Proceedings of the Applied Networking Research Workshop, of
ANRW '21, July 2021.
link
bibtex
@inproceedings{hounsel2021:ddns:anrw,
title = "{Encryption without Centralization: Distributing {DNS} Queries Across Recursive Resolvers}",
author = {Austin Hounsel and Paul Schmitt and Kevin Borgolte and Nick Feamster},
month = jul,
year = 2021,
booktitle = {Proceedings of the Applied Networking Research Workshop},
location = {Virtual Event, USA},
series = {ANRW '21}
}
Enter At Your Own Risk: The Impacts of Joining a Hateful Subreddit.
Ko, K.; Burghardt, K.; and Muric, G.
2021 IEEE 18th International Conference on Mobile Ad Hoc and Smart Systems (MASS),657–658. oct 2021.
Paper
doi
link
bibtex
@article{Ko2021,
author = {Ko, Kaitlyn and Burghardt, Keith and Muric, Goran},
doi = {10.1109/MASS52906.2021.00095},
isbn = {978-1-6654-4935-9},
journal = {2021 IEEE 18th International Conference on Mobile Ad Hoc and Smart Systems (MASS)},
month = {oct},
pages = {657--658},
publisher = {IEEE},
title = {{Enter At Your Own Risk: The Impacts of Joining a Hateful Subreddit}},
url = {https://ieeexplore.ieee.org/document/9637814/},
year = {2021}
}
Estimating expectation values using approximate quantum states.
Paini, M.; Kalev, A.; Padilha, D.; and Ruck, B.
Quantum, 5: 413. Mar 2021.
Paper
doi
link
bibtex
@article{Paini_2021,
title={Estimating expectation values using approximate quantum states},
volume={5},
ISSN={2521-327X},
url={http://dx.doi.org/10.22331/q-2021-03-16-413},
DOI={10.22331/q-2021-03-16-413},
journal={Quantum},
publisher={Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften},
author={Paini, Marco and Kalev, Amir and Padilha, Dan and Ruck, Brendan},
year={2021},
month={Mar},
pages={413}
}
Evaluating energy-aware scheduling algorithms for I/O-intensive scientific workflows.
Coleman, T.; Casanova, H.; Gwartney, T.; and Ferreira da Silva, R.
In
International Conference on Computational Science (ICCS), pages 183–197, 2021. Springer
Funding Acknowledgments: NSF 1923539, NSF 2016619
doi
link
bibtex
@InProceedings{ coleman2021iccs,
Author = {Coleman, Tain\=a and Casanova, Henri and Gwartney, Ty and
Ferreira da Silva, Rafael},
Title = {Evaluating energy-aware scheduling algorithms for
I/O-intensive scientific workflows},
BookTitle = {International Conference on Computational Science (ICCS)},
Year = {2021},
Pages = {183--197},
DOI = {10.1007/978-3-030-77961-0_16},
Organization = {Springer},
Note = {Funding Acknowledgments: NSF 1923539, NSF 2016619}
}
Event-Centric Natural Language Processing.
Chen, M.; Zhang, H.; Ning, Q.; Li, M.; Ji, H.; McKeown, K.; and Roth, D.
In
ACL, 2021.
link
bibtex
@inproceedings{chen2021event,
title={Event-Centric Natural Language Processing},
author={Chen, Muhao and Zhang, Hongming and Ning, Qiang and Li, Manling and Ji, Heng and McKeown, Kathleen and Roth, Dan},
booktitle={ACL},
year={2021}
}
Event-Centric Natural Language Understanding.
Chen, M.; Zhang, H.; Ning, Q.; Li, M.; Ji, H.; and Roth, D.
AAAI Tutorials. 2021.
link
bibtex
@article{chen2021event,
title={Event-Centric Natural Language Understanding},
author={Chen, Muhao and Zhang, Hongming and Ning, Qiang and Li, Manling and Ji, Heng and Roth, Dan},
journal={AAAI Tutorials},
year={2021}
}
Exacerbating Algorithmic Bias through Fairness Attacks.
Mehrabi, N.; Naveed, M.; Morstatter, F.; and Galstyan, A.
In
AAAI'21, 2021.
link
bibtex
@inproceedings{mehrabi2021exacerbating,
title={Exacerbating Algorithmic Bias through Fairness Attacks},
author={Mehrabi, Ninareh and Naveed, Muhammad and Morstatter, Fred and Galstyan, Aram},
booktitle={AAAI'21},
year={2021}
}
Examining and Combating Spurious Features under Distribution Shift.
Zhou, C.; Ma, X.; Michel, P.; and Neubig, G.
In Meila, M.; and Zhang, T., editor(s),
Proceedings of the 38th International Conference on Machine Learning (ICML-2021), volume 139, of
Proceedings of Machine Learning Research, pages 12857–12867, 18–24 Jul 2021. PMLR
link
bibtex
@InProceedings{pmlr-v139-zhou21g,
title = {Examining and Combating Spurious Features under Distribution Shift},
author = {Zhou, Chunting and Ma, Xuezhe and Michel, Paul and Neubig, Graham},
booktitle = {Proceedings of the 38th International Conference on Machine Learning (ICML-2021)},
pages = {12857--12867},
year = {2021},
editor = {Meila, Marina and Zhang, Tong},
volume = {139},
series = {Proceedings of Machine Learning Research},
month = {18--24 Jul},
publisher = {PMLR},
}
Experimental Demonstration of Remotely Controlled and Powered Tunable Optical 2-4 Taps Correlator of a 20-100 Gbit/s QPSK Channel Based on Laser-Delivered Bias and Control Signals.
Alishahi, F.; Minoofar, A.; Fallahpour, A.; Zou, K.; Zhou, H.; Habif, J.; Tur, M.; and Willner, A. E.
In
2021 Optical Fiber Communications Conference and Exhibition (OFC), pages 1-3, 2021.
link
bibtex
@INPROCEEDINGS{9489850,
author={Alishahi, F. and Minoofar, A. and Fallahpour, A. and Zou, K. and Zhou, H. and Habif, J. and Tur, M. and Willner, A. E.},
booktitle={2021 Optical Fiber Communications Conference and Exhibition (OFC)},
title={Experimental Demonstration of Remotely Controlled and Powered Tunable Optical 2-4 Taps Correlator of a 20-100 Gbit/s QPSK Channel Based on Laser-Delivered Bias and Control Signals},
year={2021},
volume={},
number={},
pages={1-3},
doi={}}
Experimental demonstration of remotely powered, controlled, and monitored optical switching based on laser-delivered signals.
Fallahpour, A.; Minoofar, A.; Alishahi, F.; Zou, K.; Idres, S.; Hashemi, H.; Habif, J.; Tur, M.; and Willner, A. E.
Opt. Lett., 46(18): 4589–4592. Sep 2021.
Paper
doi
link
bibtex
abstract
@article{Fallahpour:21,
author = {Ahmad Fallahpour and Amir Minoofar and Fatemeh Alishahi and Kaiheng Zou and Samer Idres and Hossein Hashemi and Jonathan Habif and Moshe Tur and Alan E. Willner},
journal = {Opt. Lett.},
keywords = {Dense wavelength division multiplexing; Erbium doped fiber amplifiers; Optical circulators; Optical signals; Phase modulation; Quadrature phase shift keying},
number = {18},
pages = {4589--4592},
publisher = {OSA},
title = {Experimental demonstration of remotely powered, controlled, and monitored optical switching based on laser-delivered signals},
volume = {46},
month = {Sep},
year = {2021},
url = {http://www.osapublishing.org/ol/abstract.cfm?URI=ol-46-18-4589},
doi = {10.1364/OL.434608},
abstract = {We experimentally demonstrate remotely powered, controlled, and monitored optical switching. The control signal of the switch is modulated on an optical wave and sent from a transmitter. At the switch location, the control signal is converted from an optical to an electrical signal to drive the switch. In addition, to provide electrical power at the switch location, optical power is sent from a distance and converted to electrical power using a series of photodiodes. We experimentally demonstrate (a) 1 Gb/s on-off keying data channel transmission and switching with a 1 MHz optically delivered control signal, and (b) 40 Gb/s quadrature phase-shift keying data channel transmission and remotely monitoring switch state and bias drift. The switching function is demonstrated without using any local electrical power supply. Moreover, the monitoring tones are transmitted to the remote switch and fed back to the transmitter to realize a switch state and detect the bias drift.},
}
We experimentally demonstrate remotely powered, controlled, and monitored optical switching. The control signal of the switch is modulated on an optical wave and sent from a transmitter. At the switch location, the control signal is converted from an optical to an electrical signal to drive the switch. In addition, to provide electrical power at the switch location, optical power is sent from a distance and converted to electrical power using a series of photodiodes. We experimentally demonstrate (a) 1 Gb/s on-off keying data channel transmission and switching with a 1 MHz optically delivered control signal, and (b) 40 Gb/s quadrature phase-shift keying data channel transmission and remotely monitoring switch state and bias drift. The switching function is demonstrated without using any local electrical power supply. Moreover, the monitoring tones are transmitted to the remote switch and fed back to the transmitter to realize a switch state and detect the bias drift.
Explaining Face Presentation Attack Detection Using Natural Language.
Mirzaalian, H.; Hussein, M.; Spinoulas, L.; May, J.; and Abd-Almageed, W.
In
2021 16th IEEE International Conference on Automatic Face and Gesture Recognition (FG 2021), 2021. IEEE
link
bibtex
@inproceedings{hangameh2021,
title={Explaining Face Presentation Attack Detection Using Natural Language},
author={Hengameh Mirzaalian and Mohamed Hussein and Leonidas Spinoulas and Jonathan May and Wael Abd-Almageed},
booktitle={2021 16th IEEE International Conference on Automatic Face and Gesture Recognition (FG 2021)},
year={2021},
organization={IEEE},
keywords="conference"
}
Exploring Strategies for Generalizable Commonsense Reasoning with Pre-trained Models.
Ma, K.; Ilievski, F.; Francis, J.; Ozaki, S.; Nyberg, E.; and Oltramari, A.
EMNLP 2021. 2021.
link
bibtex
@article{ma2021exploring,
title={Exploring Strategies for Generalizable Commonsense Reasoning with Pre-trained Models},
author={Ma, Kaixin and Ilievski, Filip and Francis, Jonathan and Ozaki, Satoru and Nyberg, Eric and Oltramari, Alessandro},
journal={EMNLP 2021},
year={2021}
}
Failure Modes of Domain Generalization Algorithms.
Galstyan, T.; Harutyunyan, H.; Khachatrian, H.; Steeg, G. V.; and Galstyan, A.
arXiv preprint arXiv:2111.13733. 2021.
link
bibtex
@article{galstyan2021failure,
title={Failure Modes of Domain Generalization Algorithms},
author={Galstyan, Tigran and Harutyunyan, Hrayr and Khachatrian, Hrant and Steeg, Greg Ver and Galstyan, Aram},
journal={arXiv preprint arXiv:2111.13733},
year={2021}
}
Fair sharing of network resources among workflow ensembles.
Papadimitriou, G.; Lyons, E.; Wang, C.; Thareja, K.; Tanaka, R.; Ruth, P.; Rodero, I.; Deelman, E.; Zink, M.; and Mandal, A.
Cluster Computing. 2021.
Funding Acknowledgments: NSF 1826997
Paper
doi
link
bibtex
@Article{ papadimitriou-cluster-2021,
Title = {Fair sharing of network resources among workflow
ensembles},
Author = {Papadimitriou, George and Lyons, Eric and Wang, Cong and
Thareja, Komal and Tanaka, Ryan and Ruth, Paul and Rodero,
Ivan and Deelman, Ewa and Zink, Michael and Mandal,
Anirban},
Year = {2021},
Journal = {Cluster Computing},
ISSN = {1573-7543},
URL = {https://doi.org/10.1007/s10586-021-03457-3},
DOI = {10.1007/s10586-021-03457-3},
Note = {Funding Acknowledgments: NSF 1826997}
}
Fairfed: Enabling group fairness in federated learning.
Ezzeldin, Y. H; Yan, S.; He, C.; Ferrara, E.; and Avestimehr, S.
arXiv preprint arXiv:2110.00857. 2021.
link
bibtex
@article{ezzeldin2021fairfed,
title={Fairfed: Enabling group fairness in federated learning},
author={Ezzeldin, Yahya H and Yan, Shen and He, Chaoyang and Ferrara, Emilio and Avestimehr, Salman},
journal={arXiv preprint arXiv:2110.00857},
year={2021}
}
Fast GRL with Unique Optimal Solutions.
Abu-El-Haija, S.; Crespi, V.; Steeg, G. V.; and Galstyan, A.
In
ICLR 2021 Workshop on Geometrical and Topological Representation Learning, 2021.
Paper
link
bibtex
@inproceedings{
abu-el-haija2021fast,
title={Fast {GRL} with Unique Optimal Solutions},
author={Sami Abu-El-Haija and Valentino Crespi and Greg Ver Steeg and Aram Galstyan},
booktitle={ICLR 2021 Workshop on Geometrical and Topological Representation Learning},
year={2021},
url={https://openreview.net/forum?id=YIloSPZFeGe}
}
Fast Graph Learning with Unique Optimal Solutions.
Abu-El-Haija, S.; Crespi, V.; Steeg, G. V.; and Galstyan, A.
In
ICLR 2021 Workshop on Geometrical and Topological Representation Learning, 2021.
link
bibtex
@inproceedings{haija2021fastgrl,
title={Fast Graph Learning with Unique Optimal Solutions},
author={Sami Abu-El-Haija and Valentino Crespi and Greg Ver Steeg and Aram Galstyan},
booktitle={ICLR 2021 Workshop on Geometrical and Topological Representation Learning},
year={2021},
}
Fast quantum state reconstruction via accelerated non-convex programming.
Kim, J. L.; Kollias, G.; Kalev, A.; Wei, K. X.; and Kyrillidis, A.
2021.
link
bibtex
@misc{kim2021fast,
title={Fast quantum state reconstruction via accelerated non-convex programming},
author={Junhyung Lyle Kim and George Kollias and Amir Kalev and Ken X. Wei and Anastasios Kyrillidis},
year={2021},
eprint={2104.07006},
archivePrefix={arXiv},
primaryClass={quant-ph}
}
%%%%%% YEAR 2020%%%%%%%%
Fight Club: Maturing Defense in Depth Obfuscation Techniques.
Menon, V. V.; Sharma, U.; Roshanisefat, S.; Shukla, S. S.; Schmidt, A. G.; French, M.; Beerel, P. A.; and Nuzzo, P.
In
Government Microcircuit Applications & Critical Techology Conference (GOMACTech), 2021.
link
bibtex
@inproceedings{menon2021b,
author = {Vivek V. Menon and Uddipt Sharma and Shervin Roshanisefat and Sanket S. Shukla and Andrew G. Schmidt and Matthew French and Peter A. Beerel and Pierluigi Nuzzo},
booktitle = {Government Microcircuit Applications \& Critical Techology Conference (GOMACTech)},
title = {Fight Club: Maturing Defense in Depth Obfuscation Techniques},
year = {2021}}
Fight Club: Maturing Defense in Depth Obfuscation Techniques.
V. Menon, U. S.; and Nuzzo, P.
March 2021.
link
bibtex
@conference {Menon2021,
title = {Fight Club: Maturing Defense in Depth Obfuscation Techniques},
booktitle = {Government Microcircuit Applications and Critical Technology Conference (GOMACTech)},
year = {2021},
month = {March},
author = {V. Menon, U. Sharma, S. Roshanisefat, S. Shukla, A. Schmidt, M. French, P. Beerel, and P. Nuzzo}
}
Finding Pragmatic Differences Between Disciplines.
Kezar, L.; and Pujara, J.
In
NAACL Workshop on Scholarly Document Processing, 2021.
link
bibtex
@inproceedings{kezar:sdp21,
Author = "Kezar, Lee and Pujara, Jay",
bib_url = "/pubs/bib/kezar-sdp21.bib",
booktitle = "NAACL Workshop on Scholarly Document Processing",
pdf_url = "/pubs/2021/kezar-sdp21/kezar-sdp21.pdf",
sec = "ws",
title = "Finding Pragmatic Differences Between Disciplines",
year = "2021"
}
Follow the leader: Documents on the leading edge of semantic change get more citations.
Soni, S.; Lerman, K.; and Eisenstein, J.
Journal of the Association for Information Science and Technology, 72(4): 478–492. 2021.
link
bibtex
@article{soni2021follow,
title={Follow the leader: Documents on the leading edge of semantic change get more citations},
author={Soni, Sandeep and Lerman, Kristina and Eisenstein, Jacob},
journal={Journal of the Association for Information Science and Technology},
volume={72},
number={4},
pages={478--492},
year={2021},
publisher={Wiley Online Library}
}
ForecastQA: A Question Answering Challenge for Event Forecasting with Temporal Text Data.
Jin, W.; Khanna, R.; Kim, S.; Lee, D.; Morstatter, F.; Galstyan, A.; and Ren, X.
In
ACL 2021, 2021.
link
bibtex
@inproceedings{jin2020forecastqa,
title={ForecastQA: A Question Answering Challenge for Event Forecasting with Temporal Text Data},
author={Jin, Woojeong and Khanna, Rahul and Kim, Suji and Lee, Dong-Ho and Morstatter, Fred and Galstyan, Aram and Ren, Xiang},
booktitle={ACL 2021},
year={2021}
}
%%2020
From Tables to Knowledge: Recent Advances in Table Understanding.
Pujara, J.; Szekely, P.; Sun, H.; and Chen, M.
In
Proceedings of the 27th ACM SIGKDD Conference on Knowledge Discovery & Data Mining: Tutorials, pages 4060–4061, 2021.
link
bibtex
@inproceedings{pujara2021tables,
title={From Tables to Knowledge: Recent Advances in Table Understanding},
author={Pujara, Jay and Szekely, Pedro and Sun, Huan and Chen, Muhao},
booktitle={Proceedings of the 27th ACM SIGKDD Conference on Knowledge Discovery \& Data Mining: Tutorials},
pages={4060--4061},
year={2021}
}
Gender disparity in the authorship of biomedical research publications during the COVID-19 pandemic.
Muric, G.; Lerman, K.; and Ferrara, E.
Journal of Medical Internet Research. 2021.
link
bibtex
@article{muric2021gender,
title={Gender disparity in the authorship of biomedical research publications during the COVID-19 pandemic},
author={Muric, Goran and Lerman, Kristina and Ferrara, Emilio},
journal={Journal of Medical Internet Research},
year={2021}
}
Gender disparity in the authorship of biomedical research publications during the COVID-19 pandemic: Retrospective observational study.
Muric, G.; Lerman, K.; and Ferrara, E.
Journal of medical Internet research, 23(4): e25379. 2021.
link
bibtex
@article{muric2021gender,
title={Gender disparity in the authorship of biomedical research publications during the COVID-19 pandemic: Retrospective observational study},
author={Muric, Goran and Lerman, Kristina and Ferrara, Emilio},
journal={Journal of medical Internet research},
volume={23},
number={4},
pages={e25379},
year={2021},
publisher={JMIR Publications Inc., Toronto, Canada}
}
Generating Explainable Abstractions for Wikidata Entities.
Klein, N.; Ilievski, F.; and Szekely, P.
In
Proceedings of the 11th on Knowledge Capture Conference, pages 89–96, 2021.
link
bibtex
@inproceedings{klein2021generating,
title={Generating Explainable Abstractions for Wikidata Entities},
author={Klein, Nicholas and Ilievski, Filip and Szekely, Pedro},
booktitle={Proceedings of the 11th on Knowledge Capture Conference},
pages={89--96},
year={2021}
}
Graph signal recovery using restricted Boltzmann machines.
Mohan, A.; Nakano, A.; and Ferrara, E.
Expert Systems with Applications, 185: 115635. 2021.
link
bibtex
@article{mohan2021graph,
title={Graph signal recovery using restricted Boltzmann machines},
author={Mohan, Ankith and Nakano, Aiichiro and Ferrara, Emilio},
journal={Expert Systems with Applications},
volume={185},
pages={115635},
year={2021},
publisher={Pergamon}
}
Guided Generative Models using Weak Supervision for Detecting Object Spatial Arrangement in Overhead Images.
Duan, W.; Chiang, Y.; Leyk, S.; Uhl, J. H; and Knoblock, C. A
In
Proceedings of the 2021 IEEE International Conference on Big Data, pages 725–734, 2021. IEEE
Paper
link
bibtex
@inproceedings{duan2021guided,
title={Guided Generative Models using Weak Supervision for Detecting Object Spatial Arrangement in Overhead Images},
author={Duan, Weiwei and Chiang, Yao-Yi and Leyk, Stefan and Uhl, Johannes H and Knoblock, Craig A},
booktitle={Proceedings of the 2021 IEEE International Conference on Big Data},
pages={725--734},
year={2021},
organization={IEEE},
URLpaper={https://weiweiduan.github.io/papers/BigD650_camera_ready.pdf}
}
HYPER-SNN: Towards Energy-efficient Quantized Deep Spiking Neural Networks for Hyperspectral Image Classification.
G Datta, S K.; and AR Jaiswal, P. B.
arXiv preprint arXiv:2107.11979, 2021. 2021.
link
bibtex
@article{spectral,
title={HYPER-SNN: Towards Energy-efficient Quantized Deep Spiking Neural Networks for Hyperspectral Image Classification},
author={G Datta, S Kundu, AR Jaiswal, PA Beerel },
journal={arXiv preprint arXiv:2107.11979, 2021},
year={2021}
}
Hamiltonian Dynamics with Non-Newtonian Momentum for Rapid Sampling.
Ver Steeg, G.; and Galstyan, A.
In
Thirty-Fifth Conference on Neural Information Processing Systems, 2021.
link
bibtex
@inproceedings{ver2021hamiltonian,
title={Hamiltonian Dynamics with Non-Newtonian Momentum for Rapid Sampling},
author={Ver Steeg, Greg and Galstyan, Aram},
booktitle={Thirty-Fifth Conference on Neural Information Processing Systems},
year={2021}
}
HashSplit: Exploiting Bitcoin Asynchrony to Violate Common Prefix and Chain Quality.
Saad, M.; Anwar, A.; Ravi, S.; and Mohaisen, D. A.
IACR Cryptol. ePrint Arch., 2021: 299. 2021.
Paper
link
bibtex
@article{SaadARM21,
author = {Muhammad Saad and
Afsah Anwar and
Srivatsan Ravi and
David A. Mohaisen},
title = {HashSplit: Exploiting Bitcoin Asynchrony to Violate Common Prefix
and Chain Quality},
journal = {{IACR} Cryptol. ePrint Arch.},
volume = {2021},
pages = {299},
year = {2021},
url = {https://eprint.iacr.org/2021/299},
timestamp = {Wed, 07 Apr 2021 09:35:41 +0200},
biburl = {https://dblp.org/rec/journals/iacr/SaadARM21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Having a Bad Day? Detecting the Impact of Atypical Events Using Wearable Sensors.
Burghardt, K.; Tavabi, N.; Ferrara, E.; Narayanan, S.; and Lerman, K.
In
International Conference on Social Computing, Behavioral-Cultural Modeling and Prediction and Behavior Representation in Modeling and Simulation, pages 257–267, 2021. Springer
link
bibtex
@inproceedings{burghardt2021having,
title={Having a Bad Day? Detecting the Impact of Atypical Events Using Wearable Sensors},
author={Burghardt, Keith and Tavabi, Nazgol and Ferrara, Emilio and Narayanan, Shrikanth and Lerman, Kristina},
booktitle={International Conference on Social Computing, Behavioral-Cultural Modeling and Prediction and Behavior Representation in Modeling and Simulation},
pages={257--267},
year={2021},
organization={Springer}
}
Heterogeneous Effects of Software Patches in a Multiplayer Online Battle Arena Game.
He, Y.; Tran, C.; Jiang, J.; Burghardt, K.; Ferrara, E.; Zheleva, E.; and Lerman, K.
In
The 16th International Conference on the Foundations of Digital Games (FDG) 2021, pages 1–9, 2021.
link
bibtex
@inproceedings{he2021heterogeneous,
title={Heterogeneous Effects of Software Patches in a Multiplayer Online Battle Arena Game},
author={He, Yuzi and Tran, Christopher and Jiang, Julie and Burghardt, Keith and Ferrara, Emilio and Zheleva, Elena and Lerman, Kristina},
booktitle={The 16th International Conference on the Foundations of Digital Games (FDG) 2021},
pages={1--9},
year={2021}
}
Hybrid wavelength-division multiplexing filters.
Chandran, S.; Dahlem, M.; Jacob, A. P.; Bian, Y.; Paredes, B.; and Viegas, J.
March~9 2021.
US Patent 10,942,321
link
bibtex
@misc{chandran2021hybrid,
title={Hybrid wavelength-division multiplexing filters},
author={Chandran, Sujith and Dahlem, Marcus and Jacob, Ajey Poovannummoottil and Bian, Yusheng and Paredes, Bruna and Viegas, Jaime},
year={2021},
month=mar # "~9",
publisher={Google Patents},
note={US Patent 10,942,321}
}
HyperExpan: Taxonomy Expansion with Hyperbolic Representation Learning.
Ma, M. D.; Chen, M.; Wu, T.; and Peng, N.
In
EMNLP - Findings, pages 4182–4194, 2021.
link
bibtex
@inproceedings{ma2021hyperexpan,
title={HyperExpan: Taxonomy Expansion with Hyperbolic Representation Learning},
author={Ma, Mingyu Derek and Chen, Muhao and Wu, Te-Lin and Peng, Nanyun},
booktitle={EMNLP - Findings},
pages={4182--4194},
year={2021}
}
I Always Feel Like Somebody's Sensing Me! A Framework to Detect, Identify, and Localize Clandestine Wireless Sensors.
Singh, A. D.; Garcia, L.; Noor, J.; and Srivastava, M.
In
30th $\{$USENIX$\}$ Security Symposium ($\{$USENIX$\}$ Security 21), 2021.
link
bibtex
@inproceedings{singh2021always,
title={I Always Feel Like Somebody's Sensing Me! A Framework to Detect, Identify, and Localize Clandestine Wireless Sensors},
author={Singh, Akash Deep and Garcia, Luis and Noor, Joseph and Srivastava, Mani},
booktitle={30th $\{$USENIX$\}$ Security Symposium ($\{$USENIX$\}$ Security 21)},
year={2021}
}
I'll Play on My Other Account: The Network and Behavioral Differences of Sybils.
Morstatter, F.; Kim, D. O.; Jonckheere, N.; Liu, C.; Seth, M.; and Williams, D.
Proceedings of the ACM on Human-Computer Interaction, 5(CHI PLAY): 1–18. 2021.
link
bibtex
@article{morstatter2021ll,
title={I'll Play on My Other Account: The Network and Behavioral Differences of Sybils},
author={Morstatter, Fred and Kim, Do Own and Jonckheere, Natalie and Liu, Calvin and Seth, Malika and Williams, Dmitri},
journal={Proceedings of the ACM on Human-Computer Interaction},
volume={5},
number={CHI PLAY},
pages={1--18},
year={2021},
publisher={ACM New York, NY, USA}
}
IMPULSE: A 65-nm Digital Compute-in-Memory Macro With Fused Weights and Membrane Potential for Spike-Based Sequential Learning Tasks.
Amogh Agrawal , M. A.; Minsuk Koo , N. R.; and Akhilesh Jaiswal , K. R.
IEEE SOLID-STATE CIRCUITS LETTERS, VOL. 4. 2021.
link
bibtex
@article{impul,
title={IMPULSE: A 65-nm Digital Compute-in-Memory Macro With Fused Weights
and Membrane Potential for Spike-Based Sequential Learning Tasks},
author={Amogh Agrawal , Mustafa Ali , Minsuk Koo , Nitin Rathi , Akhilesh Jaiswal ,
Kaushik Roy},
journal={IEEE SOLID-STATE CIRCUITS LETTERS, VOL. 4},
year={2021}
}
Identifying Distributional Perspectives from Colingual Groups.
Tian, Y.; Chakrabarty, T.; Morstatter, F.; and Peng, N.
In
Proceedings of the Ninth International Workshop on Natural Language Processing for Social Media, pages 178–190, 2021.
link
bibtex
@inproceedings{tian2021identifying,
title={Identifying Distributional Perspectives from Colingual Groups},
author={Tian, Yufei and Chakrabarty, Tuhin and Morstatter, Fred and Peng, Nanyun},
booktitle={Proceedings of the Ninth International Workshop on Natural Language Processing for Social Media},
pages={178--190},
year={2021}
}
Identifying botnet IP address clusters using natural language processing techniques on honeypot command logs.
Galstyan, V. C. A. W. H. A. S. A. A. A.
In
SIAM Workshop on Data Mining for AI/ML for Cybersecurity, 2021.
link
bibtex
@inproceedings{crespi2021honeypot,
author={Valentino Crespi AND Wes Hardaker AND Sami Abu-El-Haija AND Aram Galstyan},
title={Identifying botnet IP address clusters using natural language processing techniques on honeypot command logs},
booktitle={SIAM Workshop on Data Mining for AI/ML for Cybersecurity},
year={2021},
}
Identifying botnet IP address clusters using natural language processing techniques on honeypot command logs.
Crespi, V.; Hardaker, W.; Abu-El-Haija, S.; and Galstyan, A.
arXiv preprint arXiv:2104.10232. 2021.
link
bibtex
@article{crespi2021identifying,
title={Identifying botnet IP address clusters using natural language processing techniques on honeypot command logs},
author={Crespi, Valentino and Hardaker, Wes and Abu-El-Haija, Sami and Galstyan, Aram},
journal={arXiv preprint arXiv:2104.10232},
year={2021}
}
Identifying temporal trends in IETF participation.
Hardaker, W.; and Bartlett, G.
. October 2021.
Paper
link
bibtex
abstract
@article{hardaker2021identifying,
title={Identifying temporal trends in IETF participation},
author={Hardaker, Wes and Bartlett, Genevieve},
url = {https://www.iab.org/wp-content/IAB-uploads/2021/11/Hardaker.pdf},
pdfurl = {https://www.iab.org/wp-content/IAB-uploads/2021/11/Hardaker.pdf},
year={2021},
month=oct,
myorganization = {USC/Information Sciences Institute},
copyrightholder = {authors},
publisher = {Internet Architecture Board},
project = {ant},
sortdate = {2021-10-05},
abstract={Researchers at USC/ISI have begun performing some large scale communication analysis using data from datasets like those from the IETF RFC, Internet-Draft and E-Mail archives. Although this work is very much work-in-progress, below we show some preliminary results in analyzing datasets that show the fruitfulness of our larger plans. We specifically look at labeled datasets that contain markings for organizations, countries, and authorship},
ISIArea="NET"
}
Researchers at USC/ISI have begun performing some large scale communication analysis using data from datasets like those from the IETF RFC, Internet-Draft and E-Mail archives. Although this work is very much work-in-progress, below we show some preliminary results in analyzing datasets that show the fruitfulness of our larger plans. We specifically look at labeled datasets that contain markings for organizations, countries, and authorship
Implicit SVD for Graph Representation Learning.
Galstyan, S. A. A. H. M. A. M. N. A. V. C. A. G. V. S. A. A.
In
Advances in Neural Information Processing Systems, 2021.
link
bibtex
@inproceedings{haija2021isvd,
author={Sami Abu-El-Haija AND Hesham Mostafa AND Marcel Nassar AND Valentino Crespi AND Greg Ver Steeg AND Aram Galstyan},
title={Implicit SVD for Graph Representation Learning},
booktitle={Advances in Neural Information Processing Systems},
year={2021},
}
Implicit SVD for Graph Representation Learning.
Abu-El-Haija, S.; Mostafa, H.; Nassar, M.; Crespi, V.; Ver Steeg, G.; and Galstyan, A.
Advances in Neural Information Processing Systems, 34. 2021.
link
bibtex
@article{abu2021implicit,
title={Implicit SVD for Graph Representation Learning},
author={Abu-El-Haija, Sami and Mostafa, Hesham and Nassar, Marcel and Crespi, Valentino and Ver Steeg, Greg and Galstyan, Aram},
journal={Advances in Neural Information Processing Systems},
volume={34},
year={2021}
}
Implicit SVD for Graph Representation Learning.
Abu-El-Haija, S.; Mostafa, H.; Nassar, M.; Crespi, V.; Steeg, G. V.; and Galstyan, A.
In
NeurIPS 2021 Conference, 2021.
link
bibtex
@inproceedings{sami2021:neurips,
author={S. Abu-El-Haija and H. Mostafa and M. Nassar and V. Crespi and G. Ver Steeg and A. Galstyan},
title={Implicit SVD for Graph Representation Learning},
booktitle={NeurIPS 2021 Conference},
year={2021}
}
Improved 3D real-time MRI of speech production.
Zhao, Z.; Lim, Y.; Byrd, D.; Narayanan, S.; and Nayak, K. S.
Magnetic Resonance in Medicine,1-14. Jan 2021.
Paper
doi
link
bibtex
abstract
@article{Zhao2020Improved3DReal-TimeMRI,
author = {Zhao, Ziwei and Lim, Yongwan and Byrd, Dani and Narayanan, Shrikanth and Nayak, Krishna S.},
title = {Improved 3D real-time MRI of speech production},
journal = {Magnetic Resonance in Medicine},
pages = {1-14},
year = {2021},
month = {Jan},
keywords = {3D real-time MRI, golden angle spiral, speech production, stack-of-spiral sampling, variable-density sampling},
doi = {https://doi.org/10.1002/mrm.28651},
url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/mrm.28651},
eprint = {https://onlinelibrary.wiley.com/doi/pdf/10.1002/mrm.28651},
abstract = {Purpose To provide 3D real-time MRI of speech production with improved spatio-temporal sharpness using randomized, variable-density, stack-of-spiral sampling combined with a 3D spatio-temporally constrained reconstruction. Methods We evaluated five candidate (k, t) sampling strategies using a previously proposed gradient-echo stack-of-spiral sequence and a 3D constrained reconstruction with spatial and temporal penalties. Regularization parameters were chosen by expert readers based on qualitative assessment. We experimentally determined the effect of spiral angle increment and kz temporal order. The strategy yielding highest image quality was chosen as the proposed method. We evaluated the proposed and original 3D real-time MRI methods in 2 healthy subjects performing speech production tasks that invoke rapid movements of articulators seen in multiple planes, using interleaved 2D real-time MRI as the reference. We quantitatively evaluated tongue boundary sharpness in three locations at two speech rates. Results The proposed data-sampling scheme uses a golden-angle spiral increment in the kx−ky plane and variable-density, randomized encoding along kz. It provided a statistically significant improvement in tongue boundary sharpness score (P < .001) in the blade, body, and root of the tongue during normal and 1.5-times speeded speech. Qualitative improvements were substantial during natural speech tasks of alternating high, low tongue postures during vowels. The proposed method was also able to capture complex tongue shapes during fast alveolar consonant segments. Furthermore, the proposed scheme allows flexible retrospective selection of temporal resolution. Conclusion We have demonstrated improved 3D real-time MRI of speech production using randomized, variable-density, stack-of-spiral sampling with a 3D spatio-temporally constrained reconstruction.}
}
Purpose To provide 3D real-time MRI of speech production with improved spatio-temporal sharpness using randomized, variable-density, stack-of-spiral sampling combined with a 3D spatio-temporally constrained reconstruction. Methods We evaluated five candidate (k, t) sampling strategies using a previously proposed gradient-echo stack-of-spiral sequence and a 3D constrained reconstruction with spatial and temporal penalties. Regularization parameters were chosen by expert readers based on qualitative assessment. We experimentally determined the effect of spiral angle increment and kz temporal order. The strategy yielding highest image quality was chosen as the proposed method. We evaluated the proposed and original 3D real-time MRI methods in 2 healthy subjects performing speech production tasks that invoke rapid movements of articulators seen in multiple planes, using interleaved 2D real-time MRI as the reference. We quantitatively evaluated tongue boundary sharpness in three locations at two speech rates. Results The proposed data-sampling scheme uses a golden-angle spiral increment in the kx−ky plane and variable-density, randomized encoding along kz. It provided a statistically significant improvement in tongue boundary sharpness score (P < .001) in the blade, body, and root of the tongue during normal and 1.5-times speeded speech. Qualitative improvements were substantial during natural speech tasks of alternating high, low tongue postures during vowels. The proposed method was also able to capture complex tongue shapes during fast alveolar consonant segments. Furthermore, the proposed scheme allows flexible retrospective selection of temporal resolution. Conclusion We have demonstrated improved 3D real-time MRI of speech production using randomized, variable-density, stack-of-spiral sampling with a 3D spatio-temporally constrained reconstruction.
Improved Brain Age estimation with slice-based Set Networks.
Gupta, U.; Lam, P.; Ver Steeg, G.; and Thompson, P.
In
IEEE International Symposium on Biomedical Imaging (ISBI), 2021.
link
bibtex
@inproceedings{umang_isbi,
Author = {Umang Gupta and Pradeep Lam and Greg {Ver Steeg} and Paul Thompson},
Booktitle = {IEEE International Symposium on Biomedical Imaging (ISBI)},
Date-Added = {2021-01-29 12:43:21 -0800},
Date-Modified = {2021-01-29 12:44:04 -0800},
Title = {Improved Brain Age estimation with slice-based Set Networks},
Year = {2021}}
Improving Reliability and Manufacturability by Maximizing Via Insertion Rates.
Chang, L.
In
Samsung SAFE Forum 2021, 2021.
link
bibtex
@inproceedings{safe2021maxvia,
title={Improving Reliability and Manufacturability by Maximizing Via Insertion Rates},
author={Lifu Chang},
booktitle={Samsung SAFE Forum 2021},
year={2021}
}
Improving low-resource ASR performance with untranscribed out-of-domain data.
Billa, J.
CoRR, abs/2106.01227. 2021.
Paper
link
bibtex
@article{DBLP:journals/corr/abs-2106-01227,
author = {Jayadev Billa},
title = {Improving low-resource {ASR} performance with untranscribed out-of-domain
data},
journal = {CoRR},
volume = {abs/2106.01227},
year = {2021},
url = {https://arxiv.org/abs/2106.01227},
eprinttype = {arXiv},
eprint = {2106.01227},
timestamp = {Thu, 10 Jun 2021 16:34:18 +0200},
biburl = {https://dblp.org/rec/journals/corr/abs-2106-01227.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
In-band telemetry congestion control system.
Ganesh Chennimalai Sankaran, B. V. V.
March~2 2021.
US Patent 10,938,722
link
bibtex
@misc{ganesh2021band,
title={In-band telemetry congestion control system},
author={Ganesh Chennimalai Sankaran, Balaji Venkat Venkataswami},
year={2021},
month=mar # "~2",
note={US Patent 10,938,722}
}
In-memory bit-serial addition system.
Ali, M.; Jaiswal, A.; and Roy, K.
April~22 2021.
US Patent App. 17/071,930
link
bibtex
@misc{ali2021memory,
title={In-memory bit-serial addition system},
author={Ali, Mustafa and Jaiswal, Akhilesh and Roy, Kaushik},
year={2021},
month=apr # "~22",
publisher={Google Patents},
note={US Patent App. 17/071,930}
}
Independent Testing of Untrusted FPGAs for Faulty Interconnnect.
Haroldsen, T.; French, M.; Sung, T.; Glick, D.; Danner, J.; and Lerner, L.
In
Government Microcircuit Applications and Critical Technology Conference, March 2021.
to appear
link
bibtex
@inproceedings{cift-gomac:2021,
author = {Haroldsen, Travis and French, Matthew and T. Sung and D. Glick and J. Danner and L. Lerner},
title = {Independent Testing of Untrusted FPGAs for Faulty Interconnnect},
booktitle = {Government Microcircuit Applications and Critical Technology Conference},
month = {March},
year = {2021},
note = {to appear}
}
Independent Testing of Untrusted FPGAs for Faulty Interconnnect.
T. Haroldsen, M. F.; T. Sung, D. G.; and J. Danner, L. L.
March 2021.
link
bibtex
@conference {Haroldsen2020,
title = {Independent Testing of Untrusted FPGAs for Faulty Interconnnect},
booktitle = {Government Microcircuit Applications and Critical Technology Conference (GOMACTech)},
year = {2021},
month = {March},
author = {T. Haroldsen, M. French, T. Sung, D. Glick, J. Danner, L. Lerner}
}
Influence Decompositions For Neural Network Attribution.
Reing, K.; Ver Steeg, G.; and Galstyan, A.
In
International Conference on Artificial Intelligence and Statistics, pages 2710–2718, 2021. PMLR
link
bibtex
@inproceedings{reing2021influence,
title={Influence Decompositions For Neural Network Attribution},
author={Reing, Kyle and Ver Steeg, Greg and Galstyan, Aram},
booktitle={International Conference on Artificial Intelligence and Statistics},
pages={2710--2718},
year={2021},
organization={PMLR}
}
Institutional Privacy Risks in Sharing DNS Data.
Imana, B.; Korolova, A.; and Heidemann, J.
In
Proceedings of the Applied Networking Research Workshop, Virtual, July 2021. ACM
Paper
doi
link
bibtex
abstract
@InProceedings{Imana21c,
author = "Basileal Imana and Aleksandra Korolova and John Heidemann",
title = "Institutional Privacy Risks in Sharing {DNS} Data",
booktitle = "Proceedings of the " # " Applied Networking Research Workshop",
year = 2021,
myorganization = "USC/Information Sciences Institute",
sortdate = "2021-07-26",
project = "ant, diiner",
jsubject = "network_observation",
month = jul,
address = "Virtual",
publisher = "ACM",
jlocation = "johnh: pafile",
keywords = "dns, privacy, institutional privacy",
doi = "https://doi.org/10.1145/3472305.3472324",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Imana21c.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Imana21c.pdf",
videourl = "https://irtf.org/anrw/2021/2-ANRW2021-89.m4v",
blogurl = "https://ant.isi.edu/blog/?p=1710",
abstract = "The Domain Name System (DNS) is used in every website visit and e-mail
transmission, so privacy is an obvious concern. In DNS, users ask
recursive resolvers (or ``recursives'') to make queries on their
behalf. Prior analysis of DNS privacy focused on privacy risks to
individual end-users, mainly in traffic between users and recursives.
Recursives cache and aggregate traffic for many users, factors that
are commonly assumed to protect end-user privacy above the recursive.
We document \emph{institutional privacy} as a new risk posed by DNS
data collected at authoritative servers, even after caching and
aggregation by DNS recursives. We are the first to demonstrate this
risk by looking at leaks of e-mail exchanges which show communications
patterns, and leaks from accessing sensitive websites, both of which
can harm an institution's public image. We define a methodology to
identify queries from institutions and identify leaks. We show the
current practices of prefix-preserving anonymization of IP addresses
and aggregation above the recursive are not sufficient to protect
institutional privacy, suggesting the need for novel approaches. We
demonstrate this claim by applying our methodology to real-world
traffic from DNS servers that use partial prefix-preserving
anonymization. Our work prompts additional privacy considerations for
institutions that run their own resolvers and authoritative server
operators that log and share DNS data.",
}
The Domain Name System (DNS) is used in every website visit and e-mail transmission, so privacy is an obvious concern. In DNS, users ask recursive resolvers (or ``recursives'') to make queries on their behalf. Prior analysis of DNS privacy focused on privacy risks to individual end-users, mainly in traffic between users and recursives. Recursives cache and aggregate traffic for many users, factors that are commonly assumed to protect end-user privacy above the recursive. We document \emphinstitutional privacy as a new risk posed by DNS data collected at authoritative servers, even after caching and aggregation by DNS recursives. We are the first to demonstrate this risk by looking at leaks of e-mail exchanges which show communications patterns, and leaks from accessing sensitive websites, both of which can harm an institution's public image. We define a methodology to identify queries from institutions and identify leaks. We show the current practices of prefix-preserving anonymization of IP addresses and aggregation above the recursive are not sufficient to protect institutional privacy, suggesting the need for novel approaches. We demonstrate this claim by applying our methodology to real-world traffic from DNS servers that use partial prefix-preserving anonymization. Our work prompts additional privacy considerations for institutions that run their own resolvers and authoritative server operators that log and share DNS data.
Integrated pixel and three-terminal non-volatile memory cell and an array of cells for deep in-sensor, in-memory computing.
Jaiswal, A.; and Jacob, A. P.
July~20 2021.
US Patent 11,069,402
link
bibtex
@misc{jaiswal2021integrated,
title={Integrated pixel and three-terminal non-volatile memory cell and an array of cells for deep in-sensor, in-memory computing},
author={Jaiswal, Akhilesh and Jacob, Ajey Poovannummoottil},
year={2021},
month=jul # "~20",
publisher={Google Patents},
note={US Patent 11,069,402}
}
Integrated pixel and two-terminal non-volatile memory cell and an array of cells for deep in-sensor, in-memory computing.
Jaiswal, A.; and Jacob, A. P.
December~7 2021.
US Patent 11,195,580
link
bibtex
@misc{jaiswal2021integrated,
title={Integrated pixel and two-terminal non-volatile memory cell and an array of cells for deep in-sensor, in-memory computing},
author={Jaiswal, Akhilesh and Jacob, Ajey Poovannummoottil},
year={2021},
month=dec # "~7",
publisher={Google Patents},
note={US Patent 11,195,580}
}
Intrapersonal and Interpersonal Vocal Affect Dynamics during Psychotherapy.
Paz, A.; Rafaeli, E.; Bar-Kalifa, E.; Gilboa-Schectman, E.; Gannot, S.; Laufer-Goldshtein, B.; Narayanan, S.; Keshet, J.; and Atzil-Slonim, D.
Journal of Consulting and Clinical Psychology. Jan 2021.
link
bibtex
@article{Paz2021IntrapersonalandInterpersonalVocal,
author = {Paz, Adar and Rafaeli, Eshkol and Bar-Kalifa, Eran and Gilboa-Schectman, Eva and Gannot, Sharon and Laufer-Goldshtein, Bracha and Narayanan, Shrikanth and Keshet, Joseph and Atzil-Slonim, Dana },
journal = {Journal of Consulting and Clinical Psychology},
title = {Intrapersonal and Interpersonal Vocal Affect Dynamics during Psychotherapy},
year = {2021},
month = {Jan}
}
Introducing new technologies, innovations, and collaborations in R&E Networking between Africa, Latin America, Europe and the US through new international projects.
Bezerra, J.; Cadenas, L. E.; Chergarova, V.; Cox, D.; Greaves, D.; Grizendi, E.; Hazin, A.; Ibarra, J.; Lopez, L.; Lotz, L.; Mammen, S.; Morgan, H.; Stanton, M.; Teixeira, M.; and Wiener, S.
WACREN 2021. 2021.
link
bibtex
@article{advancesWacren21,
title={Introducing new technologies, innovations, and collaborations in R&E Networking between Africa, Latin America, Europe and the US through new international projects},
year = {2021},
journal = {WACREN 2021},
type = {Conference Paper},
author = {Jeronimmo Bezerra and Luis Eliécer Cadenas and Vasilka Chergarova and Donald Cox and Duncan Greaves and Eduardo Grizendi and Aluizio Hazin and Julio Ibarra and Luis Lopez and Len Lotz and Siju Mammen and Heidi Morgan and Michael Stanton and Marco Teixeira and Shukri Wiener}
}
Introducing the DOME Activation Functions.
Hussein, M. E.; and AbdAlmageed, W.
arXiv:2109.14798 [cs]. 2021.
link
bibtex
@article{husseinIntroducingDOMEActivation2021,
title = {Introducing the {DOME} {Activation} {Functions}},
journal = {arXiv:2109.14798 [cs]},
author = {Hussein, Mohamed E. and AbdAlmageed, Wael},
year = {2021}
}
JEDI: circular RNA prediction based on junction encoders and deep interaction among splice sites.
Jiang, J.; Ju, C. J.; Hao, J.; Chen, M.; and Wang, W.
Bioinformatics, 37(Supplement_1): i289–i298. 2021.
link
bibtex
@article{jiang2021jedi,
title={JEDI: circular RNA prediction based on junction encoders and deep interaction among splice sites},
author={Jiang, Jyun-Yu and Ju, Chelsea J-T and Hao, Junheng and Chen, Muhao and Wang, Wei},
journal={Bioinformatics},
volume={37},
number={Supplement\_1},
pages={i289--i298},
year={2021},
publisher={Oxford University Press}
}
Keyword Assisted Embedded Topic Model.
Harandizadeh, B.; Priniski, J H.; and Morstatter, F.
arXiv preprint arXiv:2112.03101. 2021.
link
bibtex
@article{harandizadeh2021keyword,
title={Keyword Assisted Embedded Topic Model},
author={Harandizadeh, Bahareh and Priniski, J Hunter and Morstatter, Fred},
journal={arXiv preprint arXiv:2112.03101},
year={2021}
}
Knowing the No-match: Entity Alignment with Dangling Cases.
Sun, Z.; Chen, M.; and Hu, W.
In
ACL, pages 3582–3593, 2021.
link
bibtex
@inproceedings{sun2021knowing,
title={Knowing the No-match: Entity Alignment with Dangling Cases},
author={Sun, Zequn and Chen, Muhao and Hu, Wei},
booktitle={ACL},
pages={3582--3593},
year={2021}
}
Knowledge Graph-Based Housing Market Analysis.
Hu, Z.; Zhao, Z.; Rostami, M.; Ilievski, F.; and Shbita, B.
In
Proceedings of the 2nd International Workshop on Knowledge Graph Construction, 2021.
Paper
link
bibtex
4 downloads
@inproceedings{hu2021knowledge,
title={Knowledge Graph-Based Housing Market Analysis},
author={Hu, Ziping and Zhao, Zepei and Rostami, Mohammad and Ilievski, Filip and Shbita, Basel},
booktitle={Proceedings of the 2nd International Workshop on Knowledge Graph Construction},
year={2021},
urlPaper={http://ceur-ws.org/Vol-2873/paper4.pdf}
}
Knowledge Graphs: Fundamentals, Techniques, and Applications.
Kejriwal, M.; Knoblock, C. A.; and Szekely, P.
The MIT Press, Cambridge, MA, 2021.
link
bibtex
@book{kejriwal2021,
Author = {Mayank Kejriwal and Craig A. Knoblock and Pedro Szekely},
Title = {Knowledge Graphs: Fundamentals, Techniques, and Applications},
Publisher = {The MIT Press},
Address = {Cambridge, MA},
Year = {2021}
}
Knowledge-driven Data Construction for Zero-shot Evaluation in Commonsense Question Answering.
Ma, K.; Ilievski, F.; Francis, J.; Bisk, Y.; Nyberg, E.; and Oltramari, A.
In
AAAI, 2021.
link
bibtex
@inproceedings{ma2021knowledge,
title={Knowledge-driven Data Construction for Zero-shot Evaluation in Commonsense Question Answering},
author={Ma, Kaixin and Ilievski, Filip and Francis, Jonathan and Bisk, Yonatan and Nyberg, Eric and Oltramari, Alessandro},
booktitle={AAAI},
year={2021}
}
Latent Embeddings of Point Process Excitations.
Marmerelis, M. G.; Ver Steeg, G.; and Galstyan, A.
In 2021.
link
bibtex
@inproceedings{myrl_point,
Author = {Myrl G. Marmerelis and Greg {Ver Steeg} and Aram Galstyan},
Date-Added = {2021-01-29 12:35:11 -0800},
Date-Modified = {2021-09-20 07:59:19 -0700},
Title = {Latent Embeddings of Point Process Excitations},
Year = {2021}}
Lawyers are Dishonest? Quantifying Representational Harms in Commonsense Knowledge Resources.
Mehrabi, N.; Zhou, P.; Morstatter, F.; Pujara, J.; Ren, X.; and Galstyan, A.
In
Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing, 2021.
link
bibtex
@inproceedings{mehrabi2021lawyers,
title={Lawyers are Dishonest? Quantifying Representational Harms in Commonsense Knowledge Resources},
author={Mehrabi, Ninareh and Zhou, Pei and Morstatter, Fred and Pujara, Jay and Ren, Xiang and Galstyan, Aram},
booktitle={Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing},
year={2021}
}
Layer-Wise Neural Network Compression via Layer Fusion.
O’Neill, J.; Steeg, G. V; and Galstyan, A.
In
Asian Conference on Machine Learning, pages 1381–1396, 2021. PMLR
link
bibtex
@inproceedings{o2021layer,
title={Layer-Wise Neural Network Compression via Layer Fusion},
author={O’Neill, James and Steeg, Greg V and Galstyan, Aram},
booktitle={Asian Conference on Machine Learning},
pages={1381--1396},
year={2021},
organization={PMLR}
}
Layer-Wise Neural Network Compression via Layer Fusion.
O'Neill, J.; Ver Steeg, G.; and Galstyan, A.
In
Asian Conference on Machine Learning (ACML), 2021.
link
bibtex
@inproceedings{james,
Author = {James O'Neill and Greg {{Ver Steeg}} and Aram Galstyan},
Booktitle = {Asian Conference on Machine Learning (ACML)},
Date-Added = {2021-09-20 06:28:42 -0700},
Date-Modified = {2021-09-20 06:29:31 -0700},
Title = {Layer-Wise Neural Network Compression via Layer Fusion},
Year = {2021}}
Learn Continually, Generalize Rapidly: Lifelong Knowledge Accumulation for Few-shot Learning.
Jin, X.; Lin, B. Y.; Rostami, M.; and Ren, X.
In
Findings of the Association for Computational Linguistics: EMNLP 2021, pages 714–729, 2021.
link
bibtex
@inproceedings{jin2021learn,
title={Learn Continually, Generalize Rapidly: Lifelong Knowledge Accumulation for Few-shot Learning},
author={Jin, Xisen and Lin, Bill Yuchen and Rostami, Mohammad and Ren, Xiang},
booktitle={Findings of the Association for Computational Linguistics: EMNLP 2021},
pages={714--729},
year={2021}
}
Learning Constraints and Descriptive Segmentation for Subevent Detection.
Wang, H.; Zhang, H.; Chen, M.; and Roth, D.
In
EMNLP, 2021.
link
bibtex
@inproceedings{wang2021learning,
title={Learning Constraints and Descriptive Segmentation for Subevent Detection},
author={Wang, Haoyu and Zhang, Hongming and Chen, Muhao and Roth, Dan},
booktitle={EMNLP},
year={2021}
}
Learning Graph Representations of Biochemical Networks and its Application to Enzymatic Link Prediction.
Jiang, J.; Liu, L.; and Hassoun, S.
Bioinformatics, 37(6): 793–799. 2021.
doi
link
bibtex
@article{jiang2021learning,
title={Learning Graph Representations of Biochemical Networks and its Application to Enzymatic Link Prediction},
author={Jiang, Julie and Liu, Li-Ping and Hassoun, Soha},
journal={Bioinformatics},
volume={37},
number={6},
pages={793--799},
year={2021},
publisher={Oxford University Press},
doi={10.1093/bioinformatics/btaa881},
}
Learning Monopoly Gameplay: A Hybrid Model-Free Deep Reinforcement Learning and Imitation Learning Approach.
Haliem, M.; Bonjour, T.; Alsalem, A. O.; Thomas, S.; Li, H.; Aggarwal, V.; Bhargava, B. K.; and Kejriwal, M.
CoRR, abs/2103.00683. 2021.
Paper
link
bibtex
@article{DBLP:journals/corr/abs-2103-00683,
author = {Marina Haliem and
Trevor Bonjour and
Aala Oqab Alsalem and
Shilpa Thomas and
Hongyu Li and
Vaneet Aggarwal and
Bharat K. Bhargava and
Mayank Kejriwal},
title = {Learning Monopoly Gameplay: {A} Hybrid Model-Free Deep Reinforcement
Learning and Imitation Learning Approach},
journal = {CoRR},
volume = {abs/2103.00683},
year = {2021},
url = {https://arxiv.org/abs/2103.00683},
eprinttype = {arXiv},
eprint = {2103.00683},
timestamp = {Fri, 05 Mar 2021 00:00:00 +0100},
biburl = {https://dblp.org/rec/journals/corr/abs-2103-00683.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Learning Where to Cut from Edited Videos.
Huang, Y.; Bai, X.; Wang, O.; Caba, F.; and Agarwala, A.
In
2021 IEEE/CVF International Conference on Computer Vision Workshops (ICCVW), pages 3208-3216, 2021.
doi
link
bibtex
@INPROCEEDINGS{video_trim,
author={Huang, Yuzhong and Bai, Xue and Wang, Oliver and Caba, Fabian and Agarwala, Aseem},
booktitle={2021 IEEE/CVF International Conference on Computer Vision Workshops (ICCVW)},
title={Learning Where to Cut from Edited Videos},
year={2021},
volume={},
number={},
pages={3208-3216},
doi={10.1109/ICCVW54120.2021.00360}
}
Learning from history: Modeling temporal knowledge graphs with sequential copy-generation networks.
Zhu, C.; Chen, M.; Fan, C.; Cheng, G.; and Zhang, Y.
In
AAAI, 2021.
link
bibtex
@inproceedings{zhu2021learning,
title={Learning from history: Modeling temporal knowledge graphs with sequential copy-generation networks},
author={Zhu, Cunchao and Chen, Muhao and Fan, Changjun and Cheng, Guangquan and Zhang, Yan},
booktitle={AAAI},
year={2021}
}
Leveraging In-Network Computing and Programmable Switches for Streaming Analysis of Scientific Data.
Sankaran, G. C; Chung, J.; and Kettimuthu, R.
In
2021 IEEE 7th International Conference on Network Softwarization (NetSoft), pages 293–297, 2021. IEEE
link
bibtex
@inproceedings{sankaran2021leveraging,
title={Leveraging In-Network Computing and Programmable Switches for Streaming Analysis of Scientific Data},
author={Sankaran, Ganesh C and Chung, Joaquin and Kettimuthu, Raj},
booktitle={2021 IEEE 7th International Conference on Network Softwarization (NetSoft)},
pages={293--297},
year={2021},
organization={IEEE}
}
Lifelong Domain Adaptation via Consolidated Internal Distribution.
Rostami, M.
Advances in Neural Information Processing Systems, 34. 2021.
link
bibtex
@article{rostami2021lifelong,
title={Lifelong Domain Adaptation via Consolidated Internal Distribution},
author={Rostami, Mohammad},
journal={Advances in Neural Information Processing Systems},
volume={34},
year={2021}
}
Link Prediction Between Structured Geopolitical Events: Models and Experiments.
Kejriwal, M.
Frontiers Big Data, 4: 779792. 2021.
Paper
doi
link
bibtex
@article{DBLP:journals/fdata/Kejriwal21,
author = {Mayank Kejriwal},
title = {Link Prediction Between Structured Geopolitical Events: Models and
Experiments},
journal = {Frontiers Big Data},
volume = {4},
pages = {779792},
year = {2021},
url = {https://doi.org/10.3389/fdata.2021.779792},
doi = {10.3389/fdata.2021.779792},
timestamp = {Thu, 09 Dec 2021 00:00:00 +0100},
biburl = {https://dblp.org/rec/journals/fdata/Kejriwal21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Localization transition induced by programmable disorder.
Filho, J. L. d. C.; Gonzalez Izquierdo, Z.; Saguia, A.; Albash, T.; Hen, I.; and Sarandy, M. S.
arXiv e-prints,arXiv:2108.06762. August 2021.
link
bibtex
@ARTICLE{2021arXiv210806762F,
author = {{Filho}, Jaime L.~C. da C. and {Gonzalez Izquierdo}, Zoe and {Saguia}, Andreia and {Albash}, Tameem and {Hen}, Itay and {Sarandy}, Marcelo S.},
title = "{Localization transition induced by programmable disorder}",
journal = {arXiv e-prints},
keywords = {Quantum Physics, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics},
year = 2021,
month = aug,
eid = {arXiv:2108.06762},
pages = {arXiv:2108.06762},
archivePrefix = {arXiv},
eprint = {2108.06762},
primaryClass = {quant-ph},
adsurl = {https://ui.adsabs.harvard.edu/abs/2021arXiv210806762F},
adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}
Low-Loss 2$\times$ 2 Wavelength-Independent Coupler Using MZI Based on Bézier Curves.
Papadovasilakis, M.; Chandran, S.; Gebregiorgis, Y.; Bian, Y.; Rakowski, M.; Augur, R.; and Viegas, J.
In
Laser Science, pages JW7A–135, 2021. Optical Society of America
link
bibtex
@inproceedings{papadovasilakis2021low,
title={Low-Loss 2$\times$ 2 Wavelength-Independent Coupler Using MZI Based on B{\'e}zier Curves},
author={Papadovasilakis, Marios and Chandran, Sujith and Gebregiorgis, Yonas and Bian, Yusheng and Rakowski, Michal and Augur, Rod and Viegas, Jaime},
booktitle={Laser Science},
pages={JW7A--135},
year={2021},
organization={Optical Society of America}
}
Luna: Linear unified nested attention.
Ma, X.; Kong, X.; Wang, S.; Zhou, C.; May, J.; Ma, H.; and Zettlemoyer, L.
Advances in Neural Information Processing Systems, 34: 2441–2453. 2021.
link
bibtex
@article{ma2021luna,
title={Luna: Linear unified nested attention},
author={Ma, Xuezhe and Kong, Xiang and Wang, Sinong and Zhou, Chunting and May, Jonathan and Ma, Hao and Zettlemoyer, Luke},
journal={Advances in Neural Information Processing Systems},
volume={34},
pages={2441--2453},
year={2021}
}
MRAM device comprising random access memory (RAM) and embedded read only memory (ROM).
Jaiswal, A.; Jacob, A. P.; and Soss, S.
March~30 2021.
US Patent 10,964,367
link
bibtex
@misc{jaiswal2021mram,
title={MRAM device comprising random access memory (RAM) and embedded read only memory (ROM)},
author={Jaiswal, Akhilesh and Jacob, Ajey Poovannummoottil and Soss, Steven},
year={2021},
month=mar # "~30",
publisher={Google Patents},
note={US Patent 10,964,367}
}
Machine-Assisted Script Curation.
Ciosici, M. R.; Cummings, J.; DeHaven, M.; Hedges, A.; Kankanampati, Y.; Lee, D.; Weischedel, R. M.; and Freedman, M.
In Sil, A.; and Lin, X. V., editor(s),
Proceedings of the 2021 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies: Demonstrations, NAACL-HLT 2021, Online, June 6-11, 2021, pages 8–17, 2021. Association for Computational Linguistics
Paper
doi
link
bibtex
@inproceedings{DBLP:conf/naacl/CiosiciCDHKLWF21,
author = {Manuel R. Ciosici and
Joseph Cummings and
Mitchell DeHaven and
Alex Hedges and
Yash Kankanampati and
Dong{-}Ho Lee and
Ralph M. Weischedel and
Marjorie Freedman},
editor = {Avi Sil and
Xi Victoria Lin},
title = {Machine-Assisted Script Curation},
booktitle = {Proceedings of the 2021 Conference of the North American Chapter of
the Association for Computational Linguistics: Human Language Technologies:
Demonstrations, {NAACL-HLT} 2021, Online, June 6-11, 2021},
pages = {8--17},
publisher = {Association for Computational Linguistics},
year = {2021},
url = {https://doi.org/10.18653/v1/2021.naacl-demos.2},
doi = {10.18653/v1/2021.naacl-demos.2},
timestamp = {Fri, 06 Aug 2021 00:41:31 +0200},
biburl = {https://dblp.org/rec/conf/naacl/CiosiciCDHKLWF21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Macro-Average: Rare Types Are Important Too.
Gowda, T.; You, W.; Lignos, C.; and May, J.
In
Proceedings of the 2021 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies, pages 1138–1157, Online, June 2021. Association for Computational Linguistics
Paper
link
bibtex
abstract
@inproceedings{gowda-etal-2021-macro,
title = "Macro-Average: Rare Types Are Important Too",
author = "Gowda, Thamme and
You, Weiqiu and
Lignos, Constantine and
May, Jonathan",
booktitle = "Proceedings of the 2021 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies",
month = jun,
year = "2021",
address = "Online",
publisher = "Association for Computational Linguistics",
url = "https://www.aclweb.org/anthology/2021.naacl-main.90",
pages = "1138--1157",
abstract = "While traditional corpus-level evaluation metrics for machine translation (MT) correlate well with fluency, they struggle to reflect adequacy. Model-based MT metrics trained on segment-level human judgments have emerged as an attractive replacement due to strong correlation results. These models, however, require potentially expensive re-training for new domains and languages. Furthermore, their decisions are inherently non-transparent and appear to reflect unwelcome biases. We explore the simple type-based classifier metric, MacroF1, and study its applicability to MT evaluation. We find that MacroF1 is competitive on direct assessment, and outperforms others in indicating downstream cross-lingual information retrieval task performance. Further, we show that MacroF1 can be used to effectively compare supervised and unsupervised neural machine translation, and reveal significant qualitative differences in the methods{'} outputs.",
}
While traditional corpus-level evaluation metrics for machine translation (MT) correlate well with fluency, they struggle to reflect adequacy. Model-based MT metrics trained on segment-level human judgments have emerged as an attractive replacement due to strong correlation results. These models, however, require potentially expensive re-training for new domains and languages. Furthermore, their decisions are inherently non-transparent and appear to reflect unwelcome biases. We explore the simple type-based classifier metric, MacroF1, and study its applicability to MT evaluation. We find that MacroF1 is competitive on direct assessment, and outperforms others in indicating downstream cross-lingual information retrieval task performance. Further, we show that MacroF1 can be used to effectively compare supervised and unsupervised neural machine translation, and reveal significant qualitative differences in the methods' outputs.
Macro-Average: Rare Types Are Important Too.
\textbfGowda, Thamme; You, W.; Lignos, C.; and May, J.
In
Proceedings of the 2021 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies, pages 1138–1157, Online, June 2021. Association for Computational Linguistics
Paper
link
bibtex
abstract
@inproceedings{gowda-etal-2021-macro,
title = "Macro-Average: Rare Types Are Important Too",
author = "\textbf{Gowda, Thamme} and
You, Weiqiu and
Lignos, Constantine and
May, Jonathan",
booktitle = "Proceedings of the 2021 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies",
month = jun,
year = "2021",
address = "Online",
publisher = "Association for Computational Linguistics",
url = "https://www.aclweb.org/anthology/2021.naacl-main.90",
pages = "1138--1157",
abstract = "While traditional corpus-level evaluation metrics for machine translation (MT) correlate well with fluency, they struggle to reflect adequacy. Model-based MT metrics trained on segment-level human judgments have emerged as an attractive replacement due to strong correlation results. These models, however, require potentially expensive re-training for new domains and languages. Furthermore, their decisions are inherently non-transparent and appear to reflect unwelcome biases. We explore the simple type-based classifier metric, MacroF1, and study its applicability to MT evaluation. We find that MacroF1 is competitive on direct assessment, and outperforms others in indicating downstream cross-lingual information retrieval task performance. Further, we show that MacroF1 can be used to effectively compare supervised and unsupervised neural machine translation, and reveal significant qualitative differences in the methods{'} outputs.",
}
While traditional corpus-level evaluation metrics for machine translation (MT) correlate well with fluency, they struggle to reflect adequacy. Model-based MT metrics trained on segment-level human judgments have emerged as an attractive replacement due to strong correlation results. These models, however, require potentially expensive re-training for new domains and languages. Furthermore, their decisions are inherently non-transparent and appear to reflect unwelcome biases. We explore the simple type-based classifier metric, MacroF1, and study its applicability to MT evaluation. We find that MacroF1 is competitive on direct assessment, and outperforms others in indicating downstream cross-lingual information retrieval task performance. Further, we show that MacroF1 can be used to effectively compare supervised and unsupervised neural machine translation, and reveal significant qualitative differences in the methods' outputs.
Making Common Fund Data More Findable: Catalyzing a Data Ecosystem.
Charbonneau, A. L; Brady, A.; Brown, C. T.; Sansone, S.; Ma'ayan, A.; Wagner, R.; Carter, R.; Harris, R. M; Gingrich, A.; Lim, M. C.; Munro, J. B; Clarke, D. J.; Creasy, H. H; Rocca-Serra, P.; Jeon, M.; Liming, R. L.; Schuler, R. E.; Romano, C.; Chard, K.; Giglio, M.; Nadendla, S.; Hodges, T. K; Mandal, M.; Canchi, S.; Waldrop, A.; and White, O.
bioRxiv preprint: https://www.biorxiv.org/content/early/2021/11/08/2021.11.05.467504.full.pdf, 2021.
Paper
doi
link
bibtex
abstract
@misc{Charbonneau2021,
abstract = {The Common Fund Data Ecosystem has created a flexible system of data federation that enables users to discover datasets from across the Common Fund without requiring the data owners to move, reformat, or rehost those data. The CFDEs federation system is centered on a metadata catalog that ingests metadata from individual Common Fund Program Data Coordination Centers into a uniform metadata model that can then be indexed and searched from a centralized portal. This uniform Crosscut Metadata Model (C2M2), supports the wide variety of data set types and metadata terms used by the individual and is designed to enable easy expansion to accommodate new datatypes.Competing Interest StatementThe authors have declared no competing interest.},
archiveprefix = {bioRxiv : the preprint server for biology},
author = {Charbonneau, Amanda L and Brady, Arthur and Brown, C. Titus and Sansone, Susanna-Assunta and Ma'ayan, Avi and Wagner, Rick and Carter, Robert and Harris, Rayna M and Gingrich, Alicia and Lim, Marisa C.W. and Munro, James B and Clarke, Daniel J.B. and Creasy, Heather H and {Rocca-Serra}, Philippe and Jeon, Minji and Liming, R. Lee and Schuler, Robert E. and Romano, Cia and Chard, Kyle and Giglio, Michelle and Nadendla, Suvarna and Hodges, Theresa K and Mandal, Meisha and Canchi, Saranya and Waldrop, Alex and White, Owen},
bdsk-url-2 = {https://doi.org/10.1101/2021.11.05.467504},
date-added = {2024-01-22 12:07:46 -0800},
date-modified = {2024-01-22 12:07:46 -0800},
doi = {10.1101/2021.11.05.467504},
elocation-id = {2021.11.05.467504},
eprint = {https://www.biorxiv.org/content/early/2021/11/08/2021.11.05.467504.full.pdf},
howpublished = {bioRxiv preprint: https://www.biorxiv.org/content/early/2021/11/08/2021.11.05.467504.full.pdf},
keywords = {preprint},
publisher = {{bioRxiv : the preprint server for biology}},
title = {Making {{Common Fund}} Data More Findable: {{Catalyzing}} a {{Data Ecosystem}}},
url = {https://www.biorxiv.org/content/early/2021/11/08/2021.11.05.467504},
year = {2021},
bdsk-url-1 = {https://www.biorxiv.org/content/early/2021/11/08/2021.11.05.467504},
bdsk-url-2 = {https://doi.org/10.1101/2021.11.05.467504}}
The Common Fund Data Ecosystem has created a flexible system of data federation that enables users to discover datasets from across the Common Fund without requiring the data owners to move, reformat, or rehost those data. The CFDEs federation system is centered on a metadata catalog that ingests metadata from individual Common Fund Program Data Coordination Centers into a uniform metadata model that can then be indexed and searched from a centralized portal. This uniform Crosscut Metadata Model (C2M2), supports the wide variety of data set types and metadata terms used by the individual and is designed to enable easy expansion to accommodate new datatypes.Competing Interest StatementThe authors have declared no competing interest.
Many-to-English Machine Translation Tools, Data, and Pretrained Models.
\textbfGowda, Thamme; Zhang, Z.; Mattmann, C.; and May, J.
In
Proceedings of the 59th Annual Meeting of the Association for Computational Linguistics and the 11th International Joint Conference on Natural Language Processing: System Demonstrations, pages 306–316, Online, August 2021. Association for Computational Linguistics
Paper
doi
link
bibtex
abstract
@inproceedings{gowda-etal-2021-many,
title = "Many-to-{E}nglish Machine Translation Tools, Data, and Pretrained Models",
author = "\textbf{Gowda, Thamme} and
Zhang, Zhao and
Mattmann, Chris and
May, Jonathan",
booktitle = "Proceedings of the 59th Annual Meeting of the Association for Computational Linguistics and the 11th International Joint Conference on Natural Language Processing: System Demonstrations",
month = aug,
year = "2021",
address = "Online",
publisher = "Association for Computational Linguistics",
url = "https://aclanthology.org/2021.acl-demo.37",
doi = "10.18653/v1/2021.acl-demo.37",
pages = "306--316",
abstract = "While there are more than 7000 languages in the world, most translation research efforts have targeted a few high resource languages. Commercial translation systems support only one hundred languages or fewer, and do not make these models available for transfer to low resource languages. In this work, we present useful tools for machine translation research: MTData, NLCodec and RTG. We demonstrate their usefulness by creating a multilingual neural machine translation model capable of translating from 500 source languages to English. We make this multilingual model readily downloadable and usable as a service, or as a parent model for transfer-learning to even lower-resource languages.",
}
While there are more than 7000 languages in the world, most translation research efforts have targeted a few high resource languages. Commercial translation systems support only one hundred languages or fewer, and do not make these models available for transfer to low resource languages. In this work, we present useful tools for machine translation research: MTData, NLCodec and RTG. We demonstrate their usefulness by creating a multilingual neural machine translation model capable of translating from 500 source languages to English. We make this multilingual model readily downloadable and usable as a service, or as a parent model for transfer-learning to even lower-resource languages.
Mapping Moral Valence of Tweets Following the Killing of George Floyd.
Priniski, J H.; Mokhberian, N.; Harandizadeh, B.; Morstatter, F.; Lerman, K.; Lu, H.; and Brantingham, P J.
arXiv preprint arXiv:2104.09578. 2021.
link
bibtex
@article{priniski2021mapping,
title={Mapping Moral Valence of Tweets Following the Killing of George Floyd},
author={Priniski, J Hunter and Mokhberian, Negar and Harandizadeh, Bahareh and Morstatter, Fred and Lerman, Kristina and Lu, Hongjing and Brantingham, P Jeffrey},
journal={arXiv preprint arXiv:2104.09578},
year={2021}
}
Measuring the Internet during Covid-19 to Evaluate Work-from-Home.
Song, X.; and Heidemann, J.
Technical Report arXiv:2102.07433v4 [cs.NI], USC/ISI, February 2021.
Updated 2022-06-03
Paper
link
bibtex
abstract
@TechReport{Song21a,
author = "Xiao Song and John Heidemann",
title = "Measuring the Internet during Covid-19 to Evaluate Work-from-Home",
institution = "USC/ISI",
year = 2021,
sortdate = "2021-02-17",
project = "ant, minceq, eieio",
jsubject = "topology_modeling",
jlocation = "johnh: pafile",
keywords = "internet, address scans, covid-19, poster, trinocular",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Song21a.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Song21a.pdf",
otherurl = "https://arxiv.org/abs/2102.07433",
number = "arXiv:2102.07433v4 [cs.NI]",
note = "Updated 2022-06-03",
month = feb,
jlocation = "johnh: pafile",
keywords = "internet, address scans, covid-19, poster, trinocular",
abstract = "The Covid-19 pandemic has radically changed our lives. Under different circumstances, people react to it in various ways. One way is to work-from-home since lockdown has been announced in many regions around the world. For some places, however, we don't know if people really work from home due to the lack of information. Since there are lots of uncertainties, it would be helpful for us to understand what really happen in these places if we can detect the reaction to the Covid-19 pandemic. Working from home indicates that people have changed the way they interact with the Internet. People used to access the Internet in the company or at school during the day. Now it is more likely that they access the Internet at home in the daytime. Therefore, the network usage changes in one place can be used to indicate if people in this place actually work from home. In this work, we reuse and analyze Trinocular outages data (around 5.1M responsive /24 blocks) over 6 months to find network usage changes by a new designed algorithm. We apply the algorithm to sets of /24 blocks in several cities and compare the detected network usage changes with real world covid-19 events to verify if the algorithm can capture the changes reacting to the Covid-19 pandemic. By applying the algorithm to all measurable /24 blocks to detect network usages changes, we conclude that network usage can be an indicator of the reaction to the Covid-19 pandemic."
,}
The Covid-19 pandemic has radically changed our lives. Under different circumstances, people react to it in various ways. One way is to work-from-home since lockdown has been announced in many regions around the world. For some places, however, we don't know if people really work from home due to the lack of information. Since there are lots of uncertainties, it would be helpful for us to understand what really happen in these places if we can detect the reaction to the Covid-19 pandemic. Working from home indicates that people have changed the way they interact with the Internet. People used to access the Internet in the company or at school during the day. Now it is more likely that they access the Internet at home in the daytime. Therefore, the network usage changes in one place can be used to indicate if people in this place actually work from home. In this work, we reuse and analyze Trinocular outages data (around 5.1M responsive /24 blocks) over 6 months to find network usage changes by a new designed algorithm. We apply the algorithm to sets of /24 blocks in several cities and compare the detected network usage changes with real world covid-19 events to verify if the algorithm can capture the changes reacting to the Covid-19 pandemic. By applying the algorithm to all measurable /24 blocks to detect network usages changes, we conclude that network usage can be an indicator of the reaction to the Covid-19 pandemic.
Membership Inference Attacks on Deep Regression Models for Neuroimaging.
Gupta, U.; Stripelis, D.; Lam, P. K.; Thompson, P. M.; Ambite, J. L.; and Steeg, G. V.
In
Medical Imaging with Deep Learning (MIDL), Zürich, Switzerland, 2021.
link
bibtex
@InProceedings{gupta2021,
author = {Umang Gupta and Dimitris Stripelis and Pradeep K. Lam and Paul M. Thompson and Jos\'{e} Luis Ambite and Greg Ver Steeg},
title = {Membership Inference Attacks on Deep Regression Models for Neuroimaging},
booktitle = {Medical Imaging with Deep Learning {(MIDL)}},
year = {2021},
address = {Z\"{u}rich, Switzerland},
}
Membership Inference Attacks on Deep Regression Models for Neuroimaging.
Gupta, U.; Stripelis, D.; Lam, P. K.; Thompson, P.; Ambite, J. L.; and Ver Steeg, G.
In
Medical Imaging with Deep Learning, 2021.
Paper
link
bibtex
@inproceedings{gupta2021membership,
Author = {Umang Gupta and Dimitris Stripelis and Pradeep K. Lam and Paul Thompson and Jose Luis Ambite and Greg {Ver Steeg}},
Booktitle = {Medical Imaging with Deep Learning},
Title = {Membership Inference Attacks on Deep Regression Models for Neuroimaging},
Url = {https://openreview.net/forum?id=8lL_y9n-CV},
Year = {2021},
Bdsk-Url-1 = {https://openreview.net/forum?id=8lL_y9n-CV}}
Message Digest for DNS Zones.
Wessels, D.; Barber, P.; Weinberg, M.; Kumari, W. ".; and Hardaker, W.
RFC 8976, February 2021.
![Message Digest for DNS Zones [txt]](//bibbase.org/img/filetypes/txt.svg "Paper")
Paper
doi
link
bibtex
abstract
@misc{RFC8976,
series = {Request for Comments},
number = 8976,
howpublished = {RFC 8976},
publisher = {RFC Editor},
doi = {10.17487/RFC8976},
url = {https://rfc-editor.org/rfc/rfc8976.txt},
author = {Duane Wessels and Piet Barber and Matt Weinberg and Warren "Ace" Kumari and Wes Hardaker},
title = {{Message Digest for DNS Zones}},
pagetotal = 31,
year = 2021,
month = feb,
abstract = {This document describes a protocol and new DNS Resource Record that provides a cryptographic message digest over DNS zone data at rest. The ZONEMD Resource Record conveys the digest data in the zone itself. When used in combination with DNSSEC, ZONEMD allows recipients to verify the zone contents for data integrity and origin authenticity. This provides assurance that received zone data matches published data, regardless of how the zone data has been transmitted and received. When used without DNSSEC, ZONEMD functions as a checksum, guarding only against unintentional changes. ZONEMD does not replace DNSSEC: DNSSEC protects individual RRsets (DNS data with fine granularity), whereas ZONEMD protects a zone's data as a whole, whether consumed by authoritative name servers, recursive name servers, or any other applications. As specified herein, ZONEMD is impractical for large, dynamic zones due to the time and resources required for digest calculation. However, the ZONEMD record is extensible so that new digest schemes may be added in the future to support large, dynamic zones.},
ISIArea="NET"
}
This document describes a protocol and new DNS Resource Record that provides a cryptographic message digest over DNS zone data at rest. The ZONEMD Resource Record conveys the digest data in the zone itself. When used in combination with DNSSEC, ZONEMD allows recipients to verify the zone contents for data integrity and origin authenticity. This provides assurance that received zone data matches published data, regardless of how the zone data has been transmitted and received. When used without DNSSEC, ZONEMD functions as a checksum, guarding only against unintentional changes. ZONEMD does not replace DNSSEC: DNSSEC protects individual RRsets (DNS data with fine granularity), whereas ZONEMD protects a zone's data as a whole, whether consumed by authoritative name servers, recursive name servers, or any other applications. As specified herein, ZONEMD is impractical for large, dynamic zones due to the time and resources required for digest calculation. However, the ZONEMD record is extensible so that new digest schemes may be added in the future to support large, dynamic zones.
Method of searching through ternary content addressable memory (tcam) and system thereof.
Sankaran, G.; Sivalingam, K.; and Srinivasan, B.
October~21 2021.
US Patent App. 17/269,880
link
bibtex
@misc{sankaran2021method,
title={Method of searching through ternary content addressable memory (tcam) and system thereof},
author={Sankaran, Ganesh and Sivalingam, Krishnamoorthy and Srinivasan, Balaji},
year={2021},
month=oct # "~21",
publisher={Google Patents},
note={US Patent App. 17/269,880}
}
Method, system and device for integration of volatile and non-volatile memory bitcells.
Jaiswal, A. R.; and Bhargava, M.
April~6 2021.
US Patent 10,971,229
link
bibtex
@misc{jaiswal2021method,
title={Method, system and device for integration of volatile and non-volatile memory bitcells},
author={Jaiswal, Akhilesh Ramlaut and Bhargava, Mudit},
year={2021},
month=apr # "~6",
publisher={Google Patents},
note={US Patent 10,971,229}
}
Mini-Me, You Complete Me! Data-Driven Drone Security via DNN-based Approximate Computing.
Ding, A.; Murthy, P.; Garcia, L.; Sun, P.; Chan, M.; and Zonouz, S.
In
24th International Symposium on Research in Attacks, Intrusions and Defenses, pages 428–441, 2021.
link
bibtex
@inproceedings{ding2021mini,
title={Mini-Me, You Complete Me! Data-Driven Drone Security via DNN-based Approximate Computing},
author={Ding, Aolin and Murthy, Praveen and Garcia, Luis and Sun, Pengfei and Chan, Matthew and Zonouz, Saman},
booktitle={24th International Symposium on Research in Attacks, Intrusions and Defenses},
pages={428--441},
year={2021}
}
Mining Workflows for Anomalous Data Transfers.
Tu, H.; Papadimitriou, G.; Kiran, M.; Wang, C.; Mandal, A.; Deelman, E.; and Menzies, T.
In
2021 2021 IEEE/ACM 18th International Conference on Mining Software Repositories (MSR) (MSR), pages 1-12, Los Alamitos, CA, USA, may 2021. IEEE Computer Society
Funding Acknowledgments: NSF 1826574, NSF 1931425, DOE DE-SC0012636
Paper
doi
link
bibtex
@InProceedings{ ken2021msr,
Author = {H. Tu and G. Papadimitriou and M. Kiran and C. Wang and A.
Mandal and E. Deelman and T. Menzies},
BookTitle = {2021 2021 IEEE/ACM 18th International Conference on Mining
Software Repositories (MSR) (MSR)},
Title = {Mining Workflows for Anomalous Data Transfers},
Year = {2021},
Volume = {},
ISSN = {},
Pages = {1-12},
Keywords = {scientific workflow, tcp signatures, anomaly detection,
hyper-parameter tuning, sequential optimization},
DOI = {10.1109/MSR52588.2021.00013},
URL = {https://doi.ieeecomputersociety.org/10.1109/MSR52588.2021.00013},
Publisher = {IEEE Computer Society},
Address = {Los Alamitos, CA, USA},
Month = {may},
Note = {Funding Acknowledgments: NSF 1826574, NSF 1931425, DOE
DE-SC0012636}
}
Mitigating the Bias of Heterogeneous Human Behavior in Affective Computing.
Yan, S.; Kao, H.; Lerman, K.; Narayanan, S.; and Ferrara, E.
In
2021 9th International Conference on Affective Computing and Intelligent Interaction (ACII), pages 1–8, 2021. IEEE
link
bibtex
@inproceedings{yan2021mitigating,
title={Mitigating the Bias of Heterogeneous Human Behavior in Affective Computing},
author={Yan, Shen and Kao, Hsien-Te and Lerman, Kristina and Narayanan, Shrikanth and Ferrara, Emilio},
booktitle={2021 9th International Conference on Affective Computing and Intelligent Interaction (ACII)},
pages={1--8},
year={2021},
organization={IEEE}
}
Ml-enabled assured microelectronics manufacturing: a technique to mitigate hardware trojan detection.
Ajey Poovannummoottil Jacob, J. D.; and Akhilesh Jaiswal, D. K. S.
December~7 2021.
US Patent 17244183
link
bibtex
@misc{jaiswal2021enabled,
title={Ml-enabled assured microelectronics manufacturing: a technique to mitigate hardware trojan detection},
author={Ajey Poovannummoottil Jacob, John Damoulakis, Akhilesh Jaiswal, Devanand Krishna Shenoy, Andrew Rittenbach},
year={2021},
month=dec # "~7",
publisher={Google Patents},
note={US Patent 17244183}
}
Model-Adaptive Interface Generation for Data-Driven Discovery.
Tangmunarunkit, H.; Shafaeibejestan, A.; Chudy, J.; Czajkowski, K.; Schuler, R.; and Kesselman, C.
arXiv:2110.01781 [cs]. October 2021.
arXiv: 2110.01781
Paper
link
bibtex
abstract
1 download
@article{tangmunarunkit_model-adaptive_2021,
title = {Model-{Adaptive} {Interface} {Generation} for {Data}-{Driven} {Discovery}},
url = {http://arxiv.org/abs/2110.01781},
abstract = {Discovery of new knowledge is increasingly data-driven, predicated on a team's ability to collaboratively create, find, analyze, retrieve, and share pertinent datasets over the duration of an investigation. This is especially true in the domain of scientific discovery where generation, analysis, and interpretation of data are the fundamental mechanisms by which research teams collaborate to achieve their shared scientific goal. Data-driven discovery in general, and scientific discovery in particular, is distinguished by complex and diverse data models and formats that evolve over the lifetime of an investigation. While databases and related information systems have the potential to be valuable tools in the discovery process, developing effective interfaces for data-driven discovery remains a roadblock to the application of database technology as an essential tool in scientific investigations. In this paper, we present a model-adaptive approach to creating interaction environments for data-driven discovery of scientific data that automatically generates interactive user interfaces for editing, searching, and viewing scientific data based entirely on introspection of an extended relational data model. We have applied model-adaptive interface generation to many active scientific investigations spanning domains of proteomics, bioinformatics, neuroscience, occupational therapy, stem cells, genitourinary, craniofacial development, and others. We present the approach, its implementation, and its evaluation through analysis of its usage in diverse scientific settings.},
urldate = {2022-01-15},
journal = {arXiv:2110.01781 [cs]},
author = {Tangmunarunkit, Hongsuda and Shafaeibejestan, Aref and Chudy, Joshua and Czajkowski, Karl and Schuler, Robert and Kesselman, Carl},
month = oct,
year = {2021},
note = {arXiv: 2110.01781},
keywords = {Computer Science - Human-Computer Interaction},
}
Discovery of new knowledge is increasingly data-driven, predicated on a team's ability to collaboratively create, find, analyze, retrieve, and share pertinent datasets over the duration of an investigation. This is especially true in the domain of scientific discovery where generation, analysis, and interpretation of data are the fundamental mechanisms by which research teams collaborate to achieve their shared scientific goal. Data-driven discovery in general, and scientific discovery in particular, is distinguished by complex and diverse data models and formats that evolve over the lifetime of an investigation. While databases and related information systems have the potential to be valuable tools in the discovery process, developing effective interfaces for data-driven discovery remains a roadblock to the application of database technology as an essential tool in scientific investigations. In this paper, we present a model-adaptive approach to creating interaction environments for data-driven discovery of scientific data that automatically generates interactive user interfaces for editing, searching, and viewing scientific data based entirely on introspection of an extended relational data model. We have applied model-adaptive interface generation to many active scientific investigations spanning domains of proteomics, bioinformatics, neuroscience, occupational therapy, stem cells, genitourinary, craniofacial development, and others. We present the approach, its implementation, and its evaluation through analysis of its usage in diverse scientific settings.
Modeling the Linux page cache for accurate simulation of data-intensive applications.
Do, H.; Hayot-Sasson, V.; Ferreira da Silva, R.; Steele, C.; Casanova, H.; and Glatard, T.
In
IEEE Cluster, 2021.
Funding Acknowledgments: NSF 1923539
link
bibtex
@InProceedings{ do2021cluster,
Author = {Do, Hoang-Dung and Hayot-Sasson, Val\'erie and Ferreira da
Silva, Rafael and Steele, Christopher and Casanova, Henri
and Glatard, Tristan},
Title = {Modeling the Linux page cache for accurate simulation of
data-intensive applications},
BookTitle = {IEEE Cluster},
Year = {2021},
Pages = {},
DOI = {},
Note = {Funding Acknowledgments: NSF 1923539}
}
Models, markets, and the forecasting of elections.
Sethi, R.; Seager, J.; Cai, E.; Benjamin, D. M; and Morstatter, F.
Available at SSRN 3767544. 2021.
link
bibtex
@article{sethi2021models,
title={Models, markets, and the forecasting of elections},
author={Sethi, Rajiv and Seager, Julie and Cai, Emily and Benjamin, Daniel M and Morstatter, Fred},
journal={Available at SSRN 3767544},
year={2021}
}
Multi-Modal Fingerprint Presentation Attack Detection: Evaluation On A New Dataset.
Spinoulas, L.; Mirzaalian, H.; Hussein, M.; and AbdAlmageed, W.
IEEE Transactions on Biometrics. 2021.
link
bibtex
@article{spinoulas_tbiom_2021,
title = {Multi-Modal Fingerprint Presentation Attack Detection: Evaluation On A New Dataset},
journal = {IEEE Transactions on Biometrics},
year="2021",
author = {Leonidas Spinoulas and Hengameh Mirzaalian and
Mohamed Hussein and Wael AbdAlmageed},
keywords="journal"
}
Multi-Modal Fingerprint Presentation Attack Detection: Evaluation On A New Dataset.
Spinoulas, L.; Mirzaalian, H.; Hussein, M. E.; and Almageed, W. A.
IEEE Transactions on Biometrics, Behavior, and Identity Science. 2021.
doi
link
bibtex
@article{spinoulasMultiModalFingerprintPresentation2021,
title = {Multi-{Modal} {Fingerprint} {Presentation} {Attack} {Detection}: {Evaluation} {On} {A} {New} {Dataset}},
issn = {2637-6407},
shorttitle = {Multi-{Modal} {Fingerprint} {Presentation} {Attack} {Detection}},
doi = {10.1109/TBIOM.2021.3072325},
journal = {IEEE Transactions on Biometrics, Behavior, and Identity Science},
author = {Spinoulas, Leonidas and Mirzaalian, Hengameh and Hussein, Mohamed E. and Almageed, Wael Abd},
year = {2021}
}
Multicast system.
Venkataswami, B. V.; and Ganesh, C S.
March~2 2021.
US Patent 10,938,591
link
bibtex
@misc{venkataswami2021multicast,
title={Multicast system},
author={Venkataswami, Balaji Venkat and Ganesh, C Sankaran},
year={2021},
month=mar # "~2",
note={US Patent 10,938,591}
}
Multispectral Biometrics System Framework: Application to Presentation Attack Detection.
Spinoulas, L.; Hussein, M.; Geissbühler, D.; Mathai, J.; Almeida, O. G.; Clivaz, G.; Marcel, S.; and AbdAlmageed, W.
IEEE Sensors . 2021.
link
bibtex
@article{spinoulas_sensors_2021,
title = {Multispectral Biometrics System Framework: Application to Presentation Attack Detection},
journal = {IEEE Sensors },
year="2021",
author = {Leonidas Spinoulas and
Mohamed Hussein and
David Geissb{\"u}hler and
Joe Mathai and Oswin G. Almeida and Guillaume Clivaz and S{\'e}bastien Marcel
and Wael AbdAlmageed},
keywords="journal"
}
Multispectral Biometrics System Framework: Application to Presentation Attack Detection.
Spinoulas, L.; Hussein, M. E.; Geissbühler, D.; Mathai, J.; Almeida, O. G.; Clivaz, G.; Marcel, S.; and Almageed, W. A.
IEEE Sensors Journal. 2021.
doi
link
bibtex
@article{spinoulasMultispectralBiometricsSystem2021,
title = {Multispectral {Biometrics} {System} {Framework}: {Application} to {Presentation} {Attack} {Detection}},
issn = {1558-1748},
shorttitle = {Multispectral {Biometrics} {System} {Framework}},
doi = {10.1109/JSEN.2021.3074406},
journal = {IEEE Sensors Journal},
author = {Spinoulas, Leonidas and Hussein, Mohamed E. and Geissbühler, David and Mathai, Joe and Almeida, Oswin G. and Clivaz, Guillaume and Marcel, Sébastien and Almageed, Wael Abd},
year = {2021}
}
Multitask Learning for Class-Imbalanced Discourse Classification.
Spangher, A.; May, J.; Shiang, S.; and Deng, L.
2021.
link
bibtex
@misc{spangher2021multitask,
title={Multitask Learning for Class-Imbalanced Discourse Classification},
author={Alexander Spangher and Jonathan May and Sz-rung Shiang and Lingjia Deng},
year={2021},
eprint={2101.00389},
archivePrefix={arXiv},
primaryClass={cs.CL}
}
Multitask Semi-Supervised Learning for Class-Imbalanced Discourse Classification.
Spangher, A.; May, J.; Shiang, S.; and Deng, L.
In
Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing, pages 498–517, Online and Punta Cana, Dominican Republic, November 2021. Association for Computational Linguistics
Paper
link
bibtex
abstract
@inproceedings{spangher-etal-2021-multitask,
title = "Multitask Semi-Supervised Learning for Class-Imbalanced Discourse Classification",
author = "Spangher, Alexander and
May, Jonathan and
Shiang, Sz-Rung and
Deng, Lingjia",
booktitle = "Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing",
month = nov,
year = "2021",
address = "Online and Punta Cana, Dominican Republic",
publisher = "Association for Computational Linguistics",
url = "https://aclanthology.org/2021.emnlp-main.40",
pages = "498--517",
abstract = "As labeling schemas evolve over time, small differences can render datasets following older schemas unusable. This prevents researchers from building on top of previous annotation work and results in the existence, in discourse learning in particular, of many small class-imbalanced datasets. In this work, we show that a multitask learning approach can combine discourse datasets from similar and diverse domains to improve discourse classification. We show an improvement of 4.9{\%} Micro F1-score over current state-of-the-art benchmarks on the \textit{NewsDiscourse} dataset, one of the largest discourse datasets recently published, due in part to label correlations across tasks, which improve performance for underrepresented classes. We also offer an extensive review of additional techniques proposed to address resource-poor problems in NLP, and show that none of these approaches can improve classification accuracy in our setting.",
}
As labeling schemas evolve over time, small differences can render datasets following older schemas unusable. This prevents researchers from building on top of previous annotation work and results in the existence, in discourse learning in particular, of many small class-imbalanced datasets. In this work, we show that a multitask learning approach can combine discourse datasets from similar and diverse domains to improve discourse classification. We show an improvement of 4.9% Micro F1-score over current state-of-the-art benchmarks on the NewsDiscourse dataset, one of the largest discourse datasets recently published, due in part to label correlations across tasks, which improve performance for underrepresented classes. We also offer an extensive review of additional techniques proposed to address resource-poor problems in NLP, and show that none of these approaches can improve classification accuracy in our setting.
MusMorph, a Database of Standardized Mouse Morphology Data for Morphometric Meta-Analyses.
Devine, J.; Vidal-Garcı́a, Marta; Liu, W.; Neves, A.; Vercio, L. D. L.; Green, R. M.; Richbourg, H. A.; Marchini, M.; Unger, C. M.; Nickle, A. C.; Radford, B.; Young, N. M.; Gonzalez, P. N.; Schuler, R. E.; Bugacov, A.; Rolian, C.; Percival, C. J.; Williams, T.; Niswander, L.; Calof, A. L.; Lander, A. D.; Visel, A.; Jirik, F. R.; Cheverud, J. M.; Klein, O.; Birnbaum, R. Y.; Merrill, A. E.; Ackermann, R. R.; Graf, D.; Hemberger, M.; Dean, W.; Forkert, N. D.; Murray, S. A.; Westerberg, H.; Marcucio, R. S.; and Hallgrı́msson, Benedikt
biorXiv preprint: https://www.biorxiv.org/content/early/2021/11/12/2021.11.11.468142.full.pdf, 2021.
Paper
doi
link
bibtex
abstract
@misc{Devine2021,
abstract = {Complex morphological traits are the product of many genes with transient or lasting developmental effects that interact in anatomical context. Mouse models are a key resource for disentangling such effects, because they offer myriad tools for manipulating the genome in a controlled environment. Unfortunately, phenotypic data are often obtained using laboratory-specific protocols, resulting in self-contained datasets that are difficult to relate to one another for larger scale analyses. To enable meta-analyses of morphological variation, particularly in the craniofacial complex and brain, we created MusMorph, a database of standardized mouse morphology data spanning numerous genotypes and developmental stages, including E10.5, E11.5, E14.5, E15.5, E18.5, and adulthood. To standardize data collection, we implemented an atlas-based phenotyping pipeline that combines techniques from image registration, deep learning, and morphometrics. Alongside stage-specific atlases, we provide aligned micro-computed tomography images, dense anatomical landmarks, and segmentations (if available) for each specimen (N=10,056). Our workflow is open-source to encourage transparency and reproducible data collection. The MusMorph data and scripts are available on FaceBase (www.facebase.org, doi.org/10.25550/3-HXMC) and GitHub (https://github.com/jaydevine/MusMorph).Competing Interest StatementThe authors have declared no competing interest.},
archiveprefix = {bioRxiv : the preprint server for biology},
author = {Devine, Jay and {Vidal-Garc{\'\i}a}, Marta and Liu, Wei and Neves, Amanda and Vercio, Lucas D. Lo and Green, Rebecca M. and Richbourg, Heather A. and Marchini, Marta and Unger, Colton M. and Nickle, Audrey C. and Radford, Bethany and Young, Nathan M. and Gonzalez, Paula N. and Schuler, Robert E. and Bugacov, Alejandro and Rolian, Campbell and Percival, Christopher J. and Williams, Trevor and Niswander, Lee and Calof, Anne L. and Lander, Arthur D. and Visel, Axel and Jirik, Frank R. and Cheverud, James M. and Klein, Ophir and Birnbaum, Ramon Y. and Merrill, Amy E. and Ackermann, Rebecca R. and Graf, Daniel and Hemberger, Myriam and Dean, Wendy and Forkert, Nils D. and Murray, Stephen A. and Westerberg, Henrik and Marcucio, Ralph S. and Hallgr{\'\i}msson, Benedikt},
bdsk-url-2 = {https://doi.org/10.1101/2021.11.11.468142},
date-added = {2024-01-22 12:08:05 -0800},
date-modified = {2024-01-22 12:08:05 -0800},
doi = {10.1101/2021.11.11.468142},
elocation-id = {2021.11.11.468142},
eprint = {https://www.biorxiv.org/content/early/2021/11/12/2021.11.11.468142.full.pdf},
howpublished = {biorXiv preprint: https://www.biorxiv.org/content/early/2021/11/12/2021.11.11.468142.full.pdf},
keywords = {dataset,preprint},
publisher = {{bioRxiv : the preprint server for biology}},
title = {{{MusMorph}}, a Database of Standardized Mouse Morphology Data for Morphometric Meta-Analyses},
url = {https://www.biorxiv.org/content/early/2021/11/12/2021.11.11.468142},
year = {2021},
bdsk-url-1 = {https://www.biorxiv.org/content/early/2021/11/12/2021.11.11.468142},
bdsk-url-2 = {https://doi.org/10.1101/2021.11.11.468142}}
Complex morphological traits are the product of many genes with transient or lasting developmental effects that interact in anatomical context. Mouse models are a key resource for disentangling such effects, because they offer myriad tools for manipulating the genome in a controlled environment. Unfortunately, phenotypic data are often obtained using laboratory-specific protocols, resulting in self-contained datasets that are difficult to relate to one another for larger scale analyses. To enable meta-analyses of morphological variation, particularly in the craniofacial complex and brain, we created MusMorph, a database of standardized mouse morphology data spanning numerous genotypes and developmental stages, including E10.5, E11.5, E14.5, E15.5, E18.5, and adulthood. To standardize data collection, we implemented an atlas-based phenotyping pipeline that combines techniques from image registration, deep learning, and morphometrics. Alongside stage-specific atlases, we provide aligned micro-computed tomography images, dense anatomical landmarks, and segmentations (if available) for each specimen (N=10,056). Our workflow is open-source to encourage transparency and reproducible data collection. The MusMorph data and scripts are available on FaceBase (www.facebase.org, doi.org/10.25550/3-HXMC) and GitHub (https://github.com/jaydevine/MusMorph).Competing Interest StatementThe authors have declared no competing interest.
NERO: a biomedical named-entity (recognition) ontology with a large, annotated corpus reveals meaningful associations through text embedding.
Wang, K.; Stevens, R.; Alachram, H.; Li, Y.; Soldatova, L.; King, R.; Ananiadou, S.; Schoene, A. M; Li, M.; Christopoulou, F.; and others
NPJ systems biology and applications, 7(1): 1–8. 2021.
link
bibtex
@article{wang2021nero,
title={NERO: a biomedical named-entity (recognition) ontology with a large, annotated corpus reveals meaningful associations through text embedding},
author={Wang, Kanix and Stevens, Robert and Alachram, Halima and Li, Yu and Soldatova, Larisa and King, Ross and Ananiadou, Sophia and Schoene, Annika M and Li, Maolin and Christopoulou, Fenia and others},
journal={NPJ systems biology and applications},
volume={7},
number={1},
pages={1--8},
year={2021},
publisher={Nature Publishing Group}
}
NIMH Repository and Genomics Resource.
NRGR
https://www.nimhgenetics.org, 2021.
[Online; accessed 16-August-2021]
link
bibtex
@misc{nrgr,
author = {{NRGR}},
title = {{NIMH Repository and Genomics Resource}},
howpublished = {https://www.nimhgenetics.org},
year = {2021},
note = {[Online; accessed 16-August-2021]}
}
NIMH Repository and Genomics Resource Submit Your Data.
NRGR
https://www.nimhgenetics.org/submit-your-data/overview, 2021.
[Online; accessed 16-August-2021]
link
bibtex
@misc{nrgr-submit,
author = {{NRGR}},
title = {{NIMH Repository and Genomics Resource Submit Your Data}},
howpublished = {https://www.nimhgenetics.org/submit-your-data/overview},
year = {2021},
note = {[Online; accessed 16-August-2021]}
}
NIMH Repository and Genomics: Validate with AutoQC.
NRGR
https://www.nimhgenetics.org/qc/qc.php, 2021.
[Online; accessed 16-August-2021]
link
bibtex
@misc{nrgr-qc,
author = {{NRGR}},
title = {{NIMH Repository and Genomics: Validate with AutoQC}},
howpublished = {https://www.nimhgenetics.org/qc/qc.php},
year = {2021},
note = {[Online; accessed 16-August-2021]}
}
NRE-012: In-Band Network Telemetry @ AmLight.
Bezerra, J.; Ibarra, J.; Torres, A. Q.; Brito, I. V. D. S.; Morgan, H.; Chergarova, V.; Paneri, A.; Bryan Ker, N.; and LeClerc, M.
Volume 2021.Supercomputing Conference 2021 (SC21). St. Louis, MO, 11/2021 2021.
Paper
link
bibtex
@proceedings {SC21,
title = {NRE-012: In-Band Network Telemetry @ AmLight},
journal = {Supercomputing Conference (SC21) - SCinet Network Research Exhibition},
volume = {2021},
year = {2021},
month = {11/2021},
pages = {Demonstration},
publisher = {Supercomputing Conference 2021 (SC21)},
type = {Conference Proceedings},
address = {St. Louis, MO},
url = {https://urldefense.com/v3/__https://sc21.supercomputing.org/app/uploads/2021/11/SC21-NRE-012.pdf__;!!FjuHKAHQs5udqho!OrfqNEjI8IYnpYEY3Wc7S4oSY6Kf82MHM8jGAJar7qa8MoXzNwtTTC2HiJsVSREP5YicoFzLysrw9Q$ },
author = {Jeronimo Bezerra and Julio Ibarra and Arturo Quintana Torres and Italo Valcy Da Silva Brito and Heidi Morgan and Vasilka Chergarova and Arun Paneri and Bryan Ker, NoviFlow and Marc LeClerc},
editor = {Experience}
}
NRE-016: AutoGOLE/SENSE: End-to-End Network Services and Workflow Integration.
Lehman, T.; Schwarz, M.; Trompert, H.; Newman, H.; Balcas, J.; Sirvinskas, R.; Chang, J.; Yang, X.; MacAuley, J.; Guok, C.; Monga, I.; Hess, J.; Yeh, F. I; Chen, J. H.; Mambretti, J.; Graham, J.; Defanti, T.; Hutton, T.; Wuerthwein, F.; Zane, C.; Bellamine, S.; Fox, L.; Hažlinský, M.; Hoeft, B.; Bezerra, J.; Ibarra, J.; Morgan, H.; and Members, G. A. / S. W.
Volume 2021.Supercomputing Conference 2021 (SC21). St. Louis, MO, 11/2021 2021.
Paper
link
bibtex
@proceedings {SC21,
title = {NRE-016: AutoGOLE/SENSE: End-to-End Network Services and Workflow Integration},
journal = {Supercomputing Conference (SC21) - SCinet Network Research Exhibition},
volume = {2021},
year = {2021},
month = {11/2021},
pages = {Demonstration},
publisher = {Supercomputing Conference 2021 (SC21)},
type = {Conference Proceedings},
address = {St. Louis, MO},
url = {https://urldefense.com/v3/__https://sc21.supercomputing.org/app/uploads/2021/11/SC21-NRE-016.pdf__;!!FjuHKAHQs5udqho!OrfqNEjI8IYnpYEY3Wc7S4oSY6Kf82MHM8jGAJar7qa8MoXzNwtTTC2HiJsVSREP5YicoFw7lheiLA$ },
author = {Tom Lehman and Marcos Schwarz and Hans Trompert and Harvey Newman and Justas Balcas and Raimondas Sirvinskas and Jin Chang and Xi Yang and John MacAuley and Chin Guok and Inder Monga and John Hess and Fei I Yeh and Jim Hao Chen and Joe Mambretti and John Graham and Tom Defanti and Tom Hutton and Frank Wuerthwein and Chris Zane and Sana Bellamine and Louis Fox and Michal Hažlinský and Bruno Hoeft and Jeronimo Bezerra and Julio Ibarra and Heidi Morgan and GNA-G AutoGOLE / SENSE WG Members},
editor = {Experience}
}
Network security using inflated files for anomaly detection.
Monaco, M. K; Negron, D.; Satira, B.; and Collins, M.
February 16 2021.
US Patent 10,924,502
link
bibtex
@misc{monaco2021network,
title={Network security using inflated files for anomaly detection},
author={Monaco, Matthew K and Negron, Daniel and Satira, Brian and Collins, Michael},
year={2021},
month=feb # "~16",
note={US Patent 10,924,502}
}
Neural Computing With Magnetoelectric Domain-Wall-Based Neurosynaptic Devices.
Jaiswal, A.; Agrawal, A.; Panda, P.; and Roy, K.
IEEE Transactions on Magnetics, 57(2): 1-9. 2021.
doi
link
bibtex
@ARTICLE{9145747,
author={A. {Jaiswal} and A. {Agrawal} and P. {Panda} and K. {Roy}},
journal={IEEE Transactions on Magnetics},
title={Neural Computing With Magnetoelectric Domain-Wall-Based Neurosynaptic Devices},
year={2021},
volume={57},
number={2},
pages={1-9},
doi={10.1109/TMAG.2020.3010712}}
New Directions in Automated Traffic Analysis.
Holland, J.; Schmitt, P.; Feamster, N.; and Mittal, P.
In
Proceedings of the 2021 ACM SIGSAC Conference on Computer and Communications Security, of
CCS '21, November 2021.
link
bibtex
@inproceedings{Holland2021:nprint,
title={New Directions in Automated Traffic Analysis},
author={Jordan Holland and Paul Schmitt and Nick Feamster and Prateek Mittal},
booktitle = {Proceedings of the 2021 ACM SIGSAC Conference on Computer and Communications Security},
year = {2021},
month=nov,
location = {Virtual Event, Republic of Korea},
series = {CCS '21}
}
New system for archiving integrative structures.
Vallat, B.; Webb, B.; Fayazi, M.; Voinea, S.; Tangmunarunkit, H.; Ganesan, S. J.; Lawson, C. L.; Westbrook, J. D.; Kesselman, C.; Sali, A.; and Berman, H. M.
Acta Crystallographica Section D Structural Biology, 77(12): 1486–1496. December 2021.
Paper
doi
link
bibtex
abstract
@article{vallat_new_2021,
title = {New system for archiving integrative structures},
volume = {77},
issn = {2059-7983},
url = {https://scripts.iucr.org/cgi-bin/paper?S2059798321010871},
doi = {10.1107/S2059798321010871},
abstract = {Structures of many complex biological assemblies are increasingly determined using integrative approaches, in which data from multiple experimental methods are combined. A standalone system, called PDB-Dev, has been developed for archiving integrative structures and making them publicly available. Here, the data standards and software tools that support PDB-Dev are described along with the new and updated components of the PDB-Dev data-collection, processing and archiving infrastructure. Following the FAIR (Findable, Accessible, Interoperable and Reusable) principles, PDB-Dev ensures that the results of integrative structure determinations are freely accessible to everyone.},
number = {12},
urldate = {2022-01-14},
journal = {Acta Crystallographica Section D Structural Biology},
author = {Vallat, Brinda and Webb, Benjamin and Fayazi, Maryam and Voinea, Serban and Tangmunarunkit, Hongsuda and Ganesan, Sai J. and Lawson, Catherine L. and Westbrook, John D. and Kesselman, Carl and Sali, Andrej and Berman, Helen M.},
month = dec,
year = {2021},
pages = {1486--1496},
}
Structures of many complex biological assemblies are increasingly determined using integrative approaches, in which data from multiple experimental methods are combined. A standalone system, called PDB-Dev, has been developed for archiving integrative structures and making them publicly available. Here, the data standards and software tools that support PDB-Dev are described along with the new and updated components of the PDB-Dev data-collection, processing and archiving infrastructure. Following the FAIR (Findable, Accessible, Interoperable and Reusable) principles, PDB-Dev ensures that the results of integrative structure determinations are freely accessible to everyone.
Numeracy enhances the literacy of language models.
Thawani, A.; Pujara, J.; and Ilievski, F.
In
Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing, pages 6960–6967, 2021.
link
bibtex
@inproceedings{thawani2021numeracy,
title={Numeracy enhances the literacy of language models},
author={Thawani, Avijit and Pujara, Jay and Ilievski, Filip},
booktitle={Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing},
pages={6960--6967},
year={2021}
}
Observing the Global IPv4 Internet: What IP Addresses Show.
Heidemann, J.
Invited talk at the SKC Science and Technology Webinar Series, June 2021.
Paper
link
bibtex
abstract
@Misc{Heidemann21a,
author = "John Heidemann",
title = "Observing the Global {IPv4} Internet: What {IP}
Addresses Show",
howpublished = "Invited talk at the SKC Science and Technology
Webinar Series",
month = jun,
year = 2021,
sortdate = "2021-06-18",
project = "ant, eieio, minceq",
jsubject = "topology_modeling",
jlocation = "johnh: pafile",
keywords = "internet outages, covid-19, coronavirus, project, ipv4 address usage",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Heidemann21a.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Heidemann21a.pdf",
videourl = "https://www.youtube.com/watch?v=4A_gFXi2WeY",
blogurl = "https://ant.isi.edu/blog/?p=1753",
myorganization = "USC/Information Sciences Institute",
copyrightholder = "authors",
abstract = "
Since 2014 the ANT lab at USC has been observing the visible IPv4
Internet (currently 5 million networks measured every 11 minutes) to
detect network outages. This talk explores how we use this
large-scale, active measurement to estimate Internet reliability and
understand the effects of real-world events such as hurricanes. We
have recently developed new algorithms to identify Covid-19-related
Work-from-Home and other Internet shutdowns in this data.
Our Internet outage work is joint work of John Heidemann, Lin Quan,
Yuri Pradkin, Guillermo Baltra, Xiao Song, and Asma Enayet with
contributions from Ryan Bogutz, Dominik Staros, Abdulla Alwabel, and
Aqib Nisar.
",
}
Since 2014 the ANT lab at USC has been observing the visible IPv4 Internet (currently 5 million networks measured every 11 minutes) to detect network outages. This talk explores how we use this large-scale, active measurement to estimate Internet reliability and understand the effects of real-world events such as hurricanes. We have recently developed new algorithms to identify Covid-19-related Work-from-Home and other Internet shutdowns in this data. Our Internet outage work is joint work of John Heidemann, Lin Quan, Yuri Pradkin, Guillermo Baltra, Xiao Song, and Asma Enayet with contributions from Ryan Bogutz, Dominik Staros, Abdulla Alwabel, and Aqib Nisar.
On the Generalization Abilities of Fine-Tuned Commonsense Language Representation Models.
Shen, K.; and Kejriwal, M.
In Bramer, M.; and Ellis, R., editor(s),
Artificial Intelligence XXXVIII - 41st SGAI International Conference on Artificial Intelligence, AI 2021, Cambridge, UK, December 14-16, 2021, Proceedings, volume 13101, of
Lecture Notes in Computer Science, pages 3–16, 2021. Springer
Paper
doi
link
bibtex
@inproceedings{DBLP:conf/sgai/0003K21,
author = {Ke Shen and
Mayank Kejriwal},
editor = {Max Bramer and
Richard Ellis},
title = {On the Generalization Abilities of Fine-Tuned Commonsense Language
Representation Models},
booktitle = {Artificial Intelligence {XXXVIII} - 41st {SGAI} International Conference
on Artificial Intelligence, {AI} 2021, Cambridge, UK, December 14-16,
2021, Proceedings},
series = {Lecture Notes in Computer Science},
volume = {13101},
pages = {3--16},
publisher = {Springer},
year = {2021},
url = {https://doi.org/10.1007/978-3-030-91100-3\_1},
doi = {10.1007/978-3-030-91100-3\_1},
timestamp = {Sat, 25 Dec 2021 00:00:00 +0100},
biburl = {https://dblp.org/rec/conf/sgai/0003K21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
One-shot learning for temporal knowledge graphs.
Mirtaheri, M.; Rostami, M.; Ren, X.; Morstatter, F.; and Galstyan, A.
In
Automayed Knowledge Base Construction, AKBC 2021, 2021.
link
bibtex
@inproceedings{mirtaheri2020one,
title={One-shot learning for temporal knowledge graphs},
author={Mirtaheri, Mehrnoosh and Rostami, Mohammad and Ren, Xiang and Morstatter, Fred and Galstyan, Aram},
booktitle={Automayed Knowledge Base Construction, AKBC 2021},
year={2021}
}
Open Drug Knowledge Graph.
Mann, M.; Ilievski, F.; Rostami, M.; Aastha, A.; and Shbita, B.
In
Proceedings of the 2nd International Workshop on Knowledge Graph Construction, 2021.
Paper
link
bibtex
2 downloads
@inproceedings{mann2021open,
title={Open Drug Knowledge Graph},
author={Mann, Mark and Ilievski, Filip and Rostami, Mohammad and Aastha, Aastha and Shbita, Basel},
booktitle={Proceedings of the 2nd International Workshop on Knowledge Graph Construction},
year={2021},
urlPaper={http://ceur-ws.org/Vol-2873/paper10.pdf}
}
Optical Steganography using Phase Encoding of Coherent States in a Noisy Thermal Channel.
Jain, R; Jagannathan, A; and Habif, J.
In
Frontiers in Optics, pages JW7A–114, 2021. Optical Society of America
link
bibtex
@inproceedings{jain2021optical,
title={Optical Steganography using Phase Encoding of Coherent States in a Noisy Thermal Channel},
author={Jain, R and Jagannathan, A and Habif, JL},
booktitle={Frontiers in Optics},
pages={JW7A--114},
year={2021},
organization={Optical Society of America}
}
Optical couplers with non-linear tapering.
Bian, Y.; Jacob, A. P.; and Chandran, S.
October~19 2021.
US Patent 11,150,407
link
bibtex
@misc{bian2021optical,
title={Optical couplers with non-linear tapering},
author={Bian, Yusheng and Jacob, Ajey Poovannummoottil and Chandran, Sujith},
year={2021},
month=oct # "~19",
publisher={Google Patents},
note={US Patent 11,150,407}
}
Optical neuro-mimetic devices.
Jaiswal, A. R; Jacob, A. P.; Bian, Y.; and Rakowski, M.
November~25 2021.
US Patent App. 16/880,253
link
bibtex
@misc{jaiswal2021optical,
title={Optical neuro-mimetic devices},
author={Jaiswal, Akhilesh R and Jacob, Ajey Poovannummoottil and Bian, Yusheng and Rakowski, Michal},
year={2021},
month=nov # "~25",
publisher={Google Patents},
note={US Patent App. 16/880,253}
}
Optimal Concurrency for List-Based Sets.
Aksenov, V.; Gramoli, V.; Kuznetsov, P.; Shang, D.; and Ravi, S.
In Malyshkin, V., editor(s),
Parallel Computing Technologies - 16th International Conference, PaCT 2021, Kaliningrad, Russia, September 13-18, 2021, Proceedings, volume 12942, of
Lecture Notes in Computer Science, pages 386–401, 2021. Springer
Paper
doi
link
bibtex
@inproceedings{DBLP:conf/pact/AksenovGKSR21,
author = {Vitaly Aksenov and
Vincent Gramoli and
Petr Kuznetsov and
Di Shang and
Srivatsan Ravi},
editor = {Victor Malyshkin},
title = {Optimal Concurrency for List-Based Sets},
booktitle = {Parallel Computing Technologies - 16th International Conference, PaCT
2021, Kaliningrad, Russia, September 13-18, 2021, Proceedings},
series = {Lecture Notes in Computer Science},
volume = {12942},
pages = {386--401},
publisher = {Springer},
year = {2021},
url = {https://doi.org/10.1007/978-3-030-86359-3\_29},
doi = {10.1007/978-3-030-86359-3\_29},
timestamp = {Thu, 09 Sep 2021 17:48:30 +0200},
biburl = {https://dblp.org/rec/conf/pact/AksenovGKSR21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Organizational Artifacts of Code Development.
Kaghazgaran, P.; Lubold, N.; and Morstatter, F.
arXiv preprint arXiv:2105.14637. 2021.
link
bibtex
@article{kaghazgaran2021organizational,
title={Organizational Artifacts of Code Development},
author={Kaghazgaran, Parisa and Lubold, Nichola and Morstatter, Fred},
journal={arXiv preprint arXiv:2105.14637},
year={2021}
}
P4 and NetFPGA based secure in-network computing architecture for AI-enabled Industrial Internet of Things.
Sankaran, G. C; Sivalingam, K. M; and Gondaliya, H.
IEEE Internet of Things Journal. 2021.
link
bibtex
@article{sankaran2021p4,
title={P4 and NetFPGA based secure in-network computing architecture for AI-enabled Industrial Internet of Things},
author={Sankaran, Ganesh C and Sivalingam, Krishna M and Gondaliya, Harsh},
journal={IEEE Internet of Things Journal},
year={2021},
publisher={IEEE}
}
PERFUME: Programmatic Extraction and Refinement for Usability of Mathematical Expression.
Weideman, N.; Felkner, V. K.; Wu, W.; May, J.; Hauser, C.; and Garcia, L.
In
Proceedings of the 2021 Research on offensive and defensive techniques in the Context of Man At The End (MATE) Attacks, of
Checkmate '21, pages 59–69, New York, NY, USA, November 2021. Association for Computing Machinery
Paper
doi
link
bibtex
abstract
@inproceedings{weideman_perfume_2021,
address = {New York, NY, USA},
series = {Checkmate '21},
title = {{PERFUME}: {Programmatic} {Extraction} and {Refinement} for {Usability} of {Mathematical} {Expression}},
isbn = {978-1-4503-8552-7},
shorttitle = {{PERFUME}},
url = {https://doi.org/10.1145/3465413.3488575},
doi = {10.1145/3465413.3488575},
abstract = {Algorithmic identification is the crux for several binary analysis applications, including malware analysis, vulnerability discovery, and embedded firmware reverse engineering. However, data-driven and signature-based approaches often break down when encountering outlier realizations of a particular algorithm. Moreover, reverse engineering of domain-specific binaries often requires collaborative analysis between reverse engineers and domain experts. Communicating the behavior of an unidentified binary program to non-reverse engineers necessitates the recovery of algorithmic semantics in a human-digestible form. This paper presents PERFUME, a framework that extracts symbolic math expressions from low-level binary representations of an algorithm. PERFUME works by translating a symbolic output representation of a binary function to a high-level mathematical expression. In particular, we detail how source and target representations are generated for training a machine translation model. We integrate PERFUME as a plug-in for Ghidra--an open-source reverse engineering framework. We present our preliminary findings for domain-specific use cases and formalize open challenges in mathematical expression extraction from algorithmic implementations.},
urldate = {2021-11-21},
booktitle = {Proceedings of the 2021 {Research} on offensive and defensive techniques in the {Context} of {Man} {At} {The} {End} ({MATE}) {Attacks}},
publisher = {Association for Computing Machinery},
author = {Weideman, Nicolaas and Felkner, Virginia K. and Wu, Wei-Cheng and May, Jonathan and Hauser, Christophe and Garcia, Luis},
month = nov,
year = {2021},
keywords = {binary analysis, mentions sympy, reverse engineering},
pages = {59--69},
}
Algorithmic identification is the crux for several binary analysis applications, including malware analysis, vulnerability discovery, and embedded firmware reverse engineering. However, data-driven and signature-based approaches often break down when encountering outlier realizations of a particular algorithm. Moreover, reverse engineering of domain-specific binaries often requires collaborative analysis between reverse engineers and domain experts. Communicating the behavior of an unidentified binary program to non-reverse engineers necessitates the recovery of algorithmic semantics in a human-digestible form. This paper presents PERFUME, a framework that extracts symbolic math expressions from low-level binary representations of an algorithm. PERFUME works by translating a symbolic output representation of a binary function to a high-level mathematical expression. In particular, we detail how source and target representations are generated for training a machine translation model. We integrate PERFUME as a plug-in for Ghidra–an open-source reverse engineering framework. We present our preliminary findings for domain-specific use cases and formalize open challenges in mathematical expression extraction from algorithmic implementations.
ParsiNLU: A Suite of Language Understanding Challenges for Persian.
Khashabi, D.; Cohan, A.; Shakeri, S.; Hosseini, P.; Pezeshkpour, P.; Alikhani, M.; Aminnaseri, M.; Bitaab, M.; Brahman, F.; Ghazarian, S.; Gheini, M.; Kabiri, A.; Mahabagdi, R. K.; Memarrast, O.; Mosallanezhad, A.; Noury, E.; Raji, S.; Rasooli, M. S.; Sadeghi, S.; Azer, E. S.; Samghabadi, N. S.; Shafaei, M.; Sheybani, S.; Tazarv, A.; and Yaghoobzadeh, Y.
Transactions of the Association for Computational Linguistics, 9: 1147–1162. 2021.
Paper
doi
link
bibtex
abstract
@article{khashabi-etal-2021-parsinlu,
title = "ParsiNLU: A Suite of Language Understanding Challenges for Persian",
author = "Khashabi, Daniel and
Cohan, Arman and
Shakeri, Siamak and
Hosseini, Pedram and
Pezeshkpour, Pouya and
Alikhani, Malihe and
Aminnaseri, Moin and
Bitaab, Marzieh and
Brahman, Faeze and
Ghazarian, Sarik and
Gheini, Mozhdeh and
Kabiri, Arman and
Mahabagdi, Rabeeh Karimi and
Memarrast, Omid and
Mosallanezhad, Ahmadreza and
Noury, Erfan and
Raji, Shahab and
Rasooli, Mohammad Sadegh and
Sadeghi, Sepideh and
Azer, Erfan Sadeqi and
Samghabadi, Niloofar Safi and
Shafaei, Mahsa and
Sheybani, Saber and
Tazarv, Ali and
Yaghoobzadeh, Yadollah",
journal = "Transactions of the Association for Computational Linguistics",
volume = "9",
year = "2021",
address = "Cambridge, MA",
publisher = "MIT Press",
url = "https://aclanthology.org/2021.tacl-1.68",
doi = "10.1162/tacl_a_00419",
pages = "1147--1162",
abstract = "Abstract Despite the progress made in recent years in addressing natural language understanding (NLU) challenges, the majority of this progress remains to be concentrated on resource-rich languages like English. This work focuses on Persian language, one of the widely spoken languages in the world, and yet there are few NLU datasets available for this language. The availability of high-quality evaluation datasets is a necessity for reliable assessment of the progress on different NLU tasks and domains. We introduce ParsiNLU, the first benchmark in Persian language that includes a range of language understanding tasks{---}reading comprehension, textual entailment, and so on. These datasets are collected in a multitude of ways, often involving manual annotations by native speakers. This results in over 14.5k new instances across 6 distinct NLU tasks. Additionally, we present the first results on state-of-the-art monolingual and multilingual pre-trained language models on this benchmark and compare them with human performance, which provides valuable insights into our ability to tackle natural language understanding challenges in Persian. We hope ParsiNLU fosters further research and advances in Persian language understanding.1",
}
Abstract Despite the progress made in recent years in addressing natural language understanding (NLU) challenges, the majority of this progress remains to be concentrated on resource-rich languages like English. This work focuses on Persian language, one of the widely spoken languages in the world, and yet there are few NLU datasets available for this language. The availability of high-quality evaluation datasets is a necessity for reliable assessment of the progress on different NLU tasks and domains. We introduce ParsiNLU, the first benchmark in Persian language that includes a range of language understanding tasks—reading comprehension, textual entailment, and so on. These datasets are collected in a multitude of ways, often involving manual annotations by native speakers. This results in over 14.5k new instances across 6 distinct NLU tasks. Additionally, we present the first results on state-of-the-art monolingual and multilingual pre-trained language models on this benchmark and compare them with human performance, which provides valuable insights into our ability to tackle natural language understanding challenges in Persian. We hope ParsiNLU fosters further research and advances in Persian language understanding.1
Partner-assisted learning for few-shot image classification.
Ma, J.; Xie, H.; Han, G.; Chang, S.; Galstyan, A.; and Abd-Almageed, W.
In
Proceedings of the IEEE/CVF International Conference on Computer Vision, pages 10573–10582, 2021.
link
bibtex
@inproceedings{ma2021partner,
title={Partner-assisted learning for few-shot image classification},
author={Ma, Jiawei and Xie, Hanchen and Han, Guangxing and Chang, Shih-Fu and Galstyan, Aram and Abd-Almageed, Wael},
booktitle={Proceedings of the IEEE/CVF International Conference on Computer Vision},
pages={10573--10582},
year={2021}
}
Perhaps PTLMs Should Go to School – A Task to Assess Open Book and Closed Book QA.
Ciosici, M.; Cecil, J.; Lee, D.; Hedges, A.; Freedman, M.; and Weischedel, R.
In
Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing, pages 6104–6111, Online and Punta Cana, Dominican Republic, November 2021. Association for Computational Linguistics
Paper
doi
link
bibtex
abstract
@inproceedings{ciosici-etal-2021-perhaps,
title = "Perhaps {PTLM}s Should Go to School {--} A Task to Assess Open Book and Closed Book {QA}",
author = "Ciosici, Manuel and
Cecil, Joe and
Lee, Dong-Ho and
Hedges, Alex and
Freedman, Marjorie and
Weischedel, Ralph",
booktitle = "Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing",
month = nov,
year = "2021",
address = "Online and Punta Cana, Dominican Republic",
publisher = "Association for Computational Linguistics",
url = "https://aclanthology.org/2021.emnlp-main.493",
doi = "10.18653/v1/2021.emnlp-main.493",
pages = "6104--6111",
abstract = "Our goal is to deliver a new task and leaderboard to stimulate research on question answering and pre-trained language models (PTLMs) to understand a significant instructional document, e.g., an introductory college textbook or a manual. PTLMs have shown great success in many question-answering tasks, given significant supervised training, but much less so in zero-shot settings. We propose a new task that includes two college-level introductory texts in the social sciences (American Government 2e) and humanities (U.S. History), hundreds of true/false statements based on review questions written by the textbook authors, validation/development tests based on the first eight chapters of the textbooks, blind tests based on the remaining textbook chapters, and baseline results given state-of-the-art PTLMs. Since the questions are balanced, random performance should be {\textasciitilde}50{\%}. T5, fine-tuned with BoolQ achieves the same performance, suggesting that the textbook{'}s content is not pre-represented in the PTLM. Taking the exam closed book, but having read the textbook (i.e., adding the textbook to T5{'}s pre-training), yields at best minor improvement (56{\%}), suggesting that the PTLM may not have {``}understood{''} the textbook (or perhaps misunderstood the questions). Performance is better ({\textasciitilde}60{\%}) when the exam is taken open-book (i.e., allowing the machine to automatically retrieve a paragraph and use it to answer the question).",
}
Our goal is to deliver a new task and leaderboard to stimulate research on question answering and pre-trained language models (PTLMs) to understand a significant instructional document, e.g., an introductory college textbook or a manual. PTLMs have shown great success in many question-answering tasks, given significant supervised training, but much less so in zero-shot settings. We propose a new task that includes two college-level introductory texts in the social sciences (American Government 2e) and humanities (U.S. History), hundreds of true/false statements based on review questions written by the textbook authors, validation/development tests based on the first eight chapters of the textbooks, blind tests based on the remaining textbook chapters, and baseline results given state-of-the-art PTLMs. Since the questions are balanced, random performance should be ~50%. T5, fine-tuned with BoolQ achieves the same performance, suggesting that the textbook's content is not pre-represented in the PTLM. Taking the exam closed book, but having read the textbook (i.e., adding the textbook to T5's pre-training), yields at best minor improvement (56%), suggesting that the PTLM may not have ``understood'' the textbook (or perhaps misunderstood the questions). Performance is better (~60%) when the exam is taken open-book (i.e., allowing the machine to automatically retrieve a paragraph and use it to answer the question).
Picasso: Model-free feature visualization.
Vu, B.; and Markov, I.
arXiv preprint arXiv:2111.12795. 2021.
link
bibtex
@article{vu2021picasso,
title = {Picasso: Model-free feature visualization},
author = {Vu, Binh and Markov, Igor},
journal = {arXiv preprint arXiv:2111.12795},
year = {2021}
}
Pictures as a Form of Protest: A Survey and Analysis of Images Posted During the Stop Asian Hate Movement on Twitter.
Allen, O. M.; Chen, E.; and Ferrara, E.
In
2021 IEEE 18th International Conference on Mobile Ad Hoc and Smart Systems (MASS), pages 667–668, 2021. IEEE
link
bibtex
@inproceedings{allen2021pictures,
title={Pictures as a Form of Protest: A Survey and Analysis of Images Posted During the Stop Asian Hate Movement on Twitter},
author={Allen, Oliver Melbourne and Chen, Emily and Ferrara, Emilio},
booktitle={2021 IEEE 18th International Conference on Mobile Ad Hoc and Smart Systems (MASS)},
pages={667--668},
year={2021},
organization={IEEE}
}
Plot-guided Adversarial Example Construction for Evaluating Open-domain Story Generation.
Ghazarian, S.; Liu, Z.; SM, A.; Weischedel, R.; Galstyan, A.; and Peng, N.
In
Proceedings of the 2021 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies, 2021.
link
bibtex
@inproceedings{ghazarian2021plot,
title={Plot-guided Adversarial Example Construction for Evaluating Open-domain Story Generation},
author={Ghazarian, Sarik and Liu, Zixi and SM, Akash and Weischedel, Ralph and Galstyan, Aram and Peng, Nanyun},
booktitle={Proceedings of the 2021 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies},
year={2021}
}
Polarizers based on looped waveguide crossings.
Bian, Y.; Chandran, S.; Viegas, J.; Zafar, H.; and Jacob, A. P.
September~30 2021.
US Patent App. 16/836,047
link
bibtex
@misc{bian2021polarizers,
title={Polarizers based on looped waveguide crossings},
author={Bian, Yusheng and Chandran, Sujith and Viegas, Jaime and Zafar, Humarira and Jacob, Ajey Poovannummoottil},
year={2021},
month=sep # "~30",
publisher={Google Patents},
note={US Patent App. 16/836,047}
}
Political Partisanship and Antiscience Attitudes in Online Discussions About COVID-19: Twitter Content Analysis.
Rao, A.; Morstatter, F.; Hu, M.; Chen, E.; Burghardt, K.; Ferrara, E.; Lerman, K.; and others
Journal of Medical Internet Research, 23(6): e26692. 2021.
link
bibtex
@article{rao2021political,
title={Political Partisanship and Antiscience Attitudes in Online Discussions About COVID-19: Twitter Content Analysis},
author={Rao, Ashwin and Morstatter, Fred and Hu, Minda and Chen, Emily and Burghardt, Keith and Ferrara, Emilio and Lerman, Kristina and others},
journal={Journal of Medical Internet Research},
volume={23},
number={6},
pages={e26692},
year={2021},
publisher={JMIR Publications Inc., Toronto, Canada}
}
Political Partisanship and Antiscience Attitudes in Online Discussions About COVID-19: Twitter Content Analysis.
Rao, A.; Morstatter, F.; Hu, M.; Chen, E.; Burghardt, K.; Ferrara, E.; and Lerman, K.
J Med Internet Res, 23(6): e26692. Jun 2021.
Paper
doi
link
bibtex
abstract
@Article{info:doi/10.2196/26692,
author="Rao, Ashwin
and Morstatter, Fred
and Hu, Minda
and Chen, Emily
and Burghardt, Keith
and Ferrara, Emilio
and Lerman, Kristina",
title="Political Partisanship and Antiscience Attitudes in Online Discussions About COVID-19: Twitter Content Analysis",
journal="J Med Internet Res",
year="2021",
month="Jun",
day="14",
volume="23",
number="6",
pages="e26692",
keywords="COVID-19; Twitter; infodemiology; infodemic; infoveillance; multidimensional polarization; social media; social network",
abstract="Background: The novel coronavirus pandemic continues to ravage communities across the United States. Opinion surveys identified the importance of political ideology in shaping perceptions of the pandemic and compliance with preventive measures. Objective: The aim of this study was to measure political partisanship and antiscience attitudes in the discussions about the pandemic on social media, as well as their geographic and temporal distributions. Methods: We analyzed a large set of tweets from Twitter related to the pandemic, collected between January and May 2020, and developed methods to classify the ideological alignment of users along the moderacy (hardline vs moderate), political (liberal vs conservative), and science (antiscience vs proscience) dimensions. Results: We found a significant correlation in polarized views along the science and political dimensions. Moreover, politically moderate users were more aligned with proscience views, while hardline users were more aligned with antiscience views. Contrary to expectations, we did not find that polarization grew over time; instead, we saw increasing activity by moderate proscience users. We also show that antiscience conservatives in the United States tended to tweet from the southern and northwestern states, while antiscience moderates tended to tweet from the western states. The proportion of antiscience conservatives was found to correlate with COVID-19 cases. Conclusions: Our findings shed light on the multidimensional nature of polarization and the feasibility of tracking polarized opinions about the pandemic across time and space through social media data. ",
issn="1438-8871",
doi="10.2196/26692",
url="https://www.jmir.org/2021/6/e26692",
url="https://doi.org/10.2196/26692",
url="http://www.ncbi.nlm.nih.gov/pubmed/34014831"
}
Background: The novel coronavirus pandemic continues to ravage communities across the United States. Opinion surveys identified the importance of political ideology in shaping perceptions of the pandemic and compliance with preventive measures. Objective: The aim of this study was to measure political partisanship and antiscience attitudes in the discussions about the pandemic on social media, as well as their geographic and temporal distributions. Methods: We analyzed a large set of tweets from Twitter related to the pandemic, collected between January and May 2020, and developed methods to classify the ideological alignment of users along the moderacy (hardline vs moderate), political (liberal vs conservative), and science (antiscience vs proscience) dimensions. Results: We found a significant correlation in polarized views along the science and political dimensions. Moreover, politically moderate users were more aligned with proscience views, while hardline users were more aligned with antiscience views. Contrary to expectations, we did not find that polarization grew over time; instead, we saw increasing activity by moderate proscience users. We also show that antiscience conservatives in the United States tended to tweet from the southern and northwestern states, while antiscience moderates tended to tweet from the western states. The proportion of antiscience conservatives was found to correlate with COVID-19 cases. Conclusions: Our findings shed light on the multidimensional nature of polarization and the feasibility of tracking polarized opinions about the pandemic across time and space through social media data.
Predicting Flash Floods in the Dallas-Fort Worth Metroplex Using Workflows and Cloud Computing.
Lyons, E.; Seo, D.; Kim, S.; Habibi, H.; Papadimitriou, G.; Tanaka, R.; Deelman, E.; Zink, M.; and Mandal, A.
In
2021 IEEE 17th International Conference on eScience (eScience), pages 259-261, 2021.
Funding Acknowledgments: NSF 1826997, 2018074, 1664162
doi
link
bibtex
@InProceedings{ lyons-escience-2021,
Author = {Lyons, Eric and Seo, Dong-Jun and Kim, Sunghee and Habibi,
Hamideh and Papadimitriou, George and Tanaka, Ryan and
Deelman, Ewa and Zink, Michael and Mandal, Anirban},
BookTitle = {2021 IEEE 17th International Conference on eScience
(eScience)},
Title = {Predicting Flash Floods in the Dallas-Fort Worth Metroplex
Using Workflows and Cloud Computing},
Year = {2021},
Volume = {},
Number = {},
Pages = {259-261},
DOI = {10.1109/eScience51609.2021.00050},
Note = {Funding Acknowledgments: NSF 1826997, 2018074, 1664162}
}
Predicting Progression from Mild Cognitive Impairment to Alzheimer’s Disease using MRI-based Cortical Features and a Two-State Markov Model.
Ficiarà, E.; Crespi, V.; Gadewar, S. P.; Thomopoulos, S. I.; Boyd, J.; Thompson, P. M.; Jahanshad, N.; Pizzagalli, F.; and Initiative, t. A. D. N.
In
Proceedings of the International Symposium on Biomedical Imaging (ISBI), Nice, France, April 2021.
link
bibtex
@inproceedings{ficiara:2021,
author ={Eleonara Ficiar\`a and Valentino Crespi and Shruti Prashant Gadewar and Sophia I. Thomopoulos and Joshua Boyd and Paul M. Thompson and Neda Jahanshad and Fabrizio Pizzagalli and the Alzheimer’s Disease Neuroimaging Initiative},
title = {Predicting {P}rogression from {M}ild {C}ognitive {I}mpairment to {A}lzheimer’s {D}isease using {MRI}-based {C}ortical {F}eatures and a {T}wo-{S}tate {M}arkov {M}odel},
booktitle = {Proceedings of the International {S}ymposium on {B}iomedical {I}maging (ISBI)},
year = {2021},
month = {April},
address = {Nice, France}
}
Predicting Youth at High Risk of Aging Out of Foster Care using Machine Learning Methods.
Ahn, E.; Gil, Y.; and Putnam-Horstein, E.
Child Abuse and Neglect, 117. 2021.
Link
link
bibtex
@article{ahn-etal-can2021,
title = {Predicting Youth at High Risk of Aging Out of Foster Care using Machine Learning Methods},
author = {Eunhye Ahn and Yolanda Gil and Emily Putnam-Horstein},
journal = {Child Abuse and Neglect},
volume=117,
ee = {https://doi.org/10.1016/j.chiabu.2021.105059},
year = {2021}
}
Pretty Good Phone Privacy.
Schmitt, P.; and Raghavan, B.
In
30th USENIX Security Symposium (USENIX Security 21), August 2021.
link
bibtex
@inproceedings{Schmitt2021:pgpp,
title={Pretty Good Phone Privacy},
author={Paul Schmitt and Barath Raghavan},
booktitle = {30th USENIX Security Symposium (USENIX Security 21)},
year = {2021},
month=aug
}
Probabilistic Box Embeddings for Uncertain Knowledge Graph Reasoning.
Chen, X.; Boratko, M.; Chen, M.; Dasgupta, S. S.; Li, X. L.; and McCallum, A.
In
NAACL, 2021.
link
bibtex
@inproceedings{chen2021probabilistic,
title={Probabilistic Box Embeddings for Uncertain Knowledge Graph Reasoning},
author={Chen, Xuelu and Boratko, Michael and Chen, Muhao and Dasgupta, Shib Sankar and Li, Xiang Lorraine and McCallum, Andrew},
booktitle={NAACL},
year={2021}
}
Probing Commonsense Explanation in Dialogue Response Generation.
Zhou, P.; Jandaghi, P.; Cho, H.; Lin, B. Y.; Pujara, J.; and Ren, X.
In
Findings of the Association for Computational Linguistics: EMNLP 2021, 2021.
link
bibtex
@inproceedings{zhou:emnlpf21,
Author = "Zhou, Pei and Jandaghi, Pegah and Cho, Hyundong and Lin, Bill Yuchen and Pujara, Jay and Ren, Xiang",
acceptrate = "35\%",
arxiv_url = "https://arxiv.org/pdf/2104.09574.pdf",
bib_url = "/pubs/bib/zhou-emnlpf21.bib",
booktitle = "Findings of the Association for Computational Linguistics: EMNLP 2021",
code_url = "https://sites.google.com/usc.edu/cedar",
pdf_url = "/pubs/2021/zhou-emnlpf21/zhou-emnlpf21.pdf",
sec = "conf",
title = "Probing Commonsense Explanation in Dialogue Response Generation",
year = "2021"
}
PyCT: A Python Concolic Tester.
Chen, Y.; Tsai, W.; Wu, W.; Yen, D.; and Yu, F.
In Oh, H., editor(s),
Programming Languages and Systems, pages 38–46, Cham, 2021. Springer International Publishing
link
bibtex
abstract
@InProceedings{10.1007/978-3-030-89051-3_3,
author="Chen, Yu-Fang
and Tsai, Wei-Lun
and Wu, Wei-Cheng
and Yen, Di-De
and Yu, Fang",
editor="Oh, Hakjoo",
title="PyCT: A Python Concolic Tester",
booktitle="Programming Languages and Systems",
year="2021",
publisher="Springer International Publishing",
address="Cham",
pages="38--46",
abstract="Concolic testing is a software testing technique for generating concrete inputs of programs to increase code coverage and has been developed for years. For programming languages such as C, JAVA, x86 binary code, and JavaScript, there are already plenty of available concolic testers. However, the concolic testers for Python are relatively less. Since Python is a popular programming language, we believe there is a strong need to develop a good one.",
isbn="978-3-030-89051-3"
}
Concolic testing is a software testing technique for generating concrete inputs of programs to increase code coverage and has been developed for years. For programming languages such as C, JAVA, x86 binary code, and JavaScript, there are already plenty of available concolic testers. However, the concolic testers for Python are relatively less. Since Python is a popular programming language, we believe there is a strong need to develop a good one.
Quantifying the Impact of Precision Errors on Quantum Approximate Optimization Algorithms.
Quiroz, G.; Titum, P.; Lotshaw, P.; Lougovski, P.; Schultz, K.; Dumitrescu, E.; and Hen, I.
arXiv e-prints,arXiv:2109.04482. September 2021.
link
bibtex
@ARTICLE{2021arXiv210904482Q,
author = {{Quiroz}, Gregory and {Titum}, Paraj and {Lotshaw}, Phillip and {Lougovski}, Pavel and {Schultz}, Kevin and {Dumitrescu}, Eugene and {Hen}, Itay},
title = "{Quantifying the Impact of Precision Errors on Quantum Approximate Optimization Algorithms}",
journal = {arXiv e-prints},
keywords = {Quantum Physics},
year = 2021,
month = sep,
eid = {arXiv:2109.04482},
pages = {arXiv:2109.04482},
archivePrefix = {arXiv},
eprint = {2109.04482},
primaryClass = {quant-ph},
adsurl = {https://ui.adsabs.harvard.edu/abs/2021arXiv210904482Q},
adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}
Quantum Algorithm for Simulating Hamiltonian Dynamics with an Off-diagonal Series Expansion.
Kalev, A.; and Hen, I.
Quantum, 5: 426. Apr 2021.
Paper
doi
link
bibtex
@article{Kalev_2021,
title={Quantum Algorithm for Simulating Hamiltonian Dynamics with an Off-diagonal Series Expansion},
volume={5},
ISSN={2521-327X},
url={http://dx.doi.org/10.22331/q-2021-04-08-426},
DOI={10.22331/q-2021-04-08-426},
journal={Quantum},
publisher={Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften},
author={Kalev, Amir and Hen, Itay},
year={2021},
month={Apr},
pages={426}
}
Quantum Algorithm for Time-Dependent Hamiltonian Simulation by Permutation Expansion.
Chen, Y.; Kalev, A.; and Hen, I.
PRX Quantum, 2: 030342. Sep 2021.
Paper
doi
link
bibtex
@article{ChenPRXQ,
title = {Quantum Algorithm for Time-Dependent Hamiltonian Simulation by Permutation Expansion},
author = {Chen, Yi-Hsiang and Kalev, Amir and Hen, Itay},
journal = {PRX Quantum},
volume = {2},
issue = {3},
pages = {030342},
numpages = {17},
year = {2021},
month = {Sep},
publisher = {American Physical Society},
doi = {10.1103/PRXQuantum.2.030342},
url = {https://link.aps.org/doi/10.1103/PRXQuantum.2.030342}
}
Quantum-limited discrimination of laser light and thermal light.
Habif, J. L.; Jagannathan, A.; Gartenstein, S.; Amory, P.; and Guha, S.
Opt. Express, 29(5): 7418–7427. Mar 2021.
Paper
doi
link
bibtex
abstract
@article{Habif:21,
author = {Jonathan L. Habif and Arunkumar Jagannathan and Samuel Gartenstein and Phoebe Amory and Saikat Guha},
journal = {Opt. Express},
keywords = {Coherent states; Heterodyne detection; Laser communications; Laser light; Optical sensing; Optical systems},
number = {5},
pages = {7418--7427},
publisher = {OSA},
title = {Quantum-limited discrimination of laser light and thermal light},
volume = {29},
month = {Mar},
year = {2021},
url = {http://www.osapublishing.org/oe/abstract.cfm?URI=oe-29-5-7418},
doi = {10.1364/OE.417989},
abstract = {Understanding the fundamental sensitivity limit of an optical sensor requires a full quantum mechanical description of the sensing task. In this work, we calculate the fundamental (quantum) limit for discriminating between pure laser light and thermal noise in a photon-starved regime. The Helstrom bound for discrimination error probability for single mode measurement is computed along with error probability bounds for direct detection, coherent homodyne detection and the Kennedy receiver. A generalized Kennedy (GK) receiver is shown to closely approach the Helstrom limit. We present an experimental demonstration of this sensing task and demonstrate a 15.4 dB improvement in discrimination sensitivity over direct detection using a GK receiver and an improvement of 19.4\&\#x0025; in error probability over coherent detection.},
}
Understanding the fundamental sensitivity limit of an optical sensor requires a full quantum mechanical description of the sensing task. In this work, we calculate the fundamental (quantum) limit for discriminating between pure laser light and thermal noise in a photon-starved regime. The Helstrom bound for discrimination error probability for single mode measurement is computed along with error probability bounds for direct detection, coherent homodyne detection and the Kennedy receiver. A generalized Kennedy (GK) receiver is shown to closely approach the Helstrom limit. We present an experimental demonstration of this sensing task and demonstrate a 15.4 dB improvement in discrimination sensitivity over direct detection using a GK receiver and an improvement of 19.4% in error probability over coherent detection.
Quantum-limited estimation of coherence under thermal noise in photon-starved states.
Chua, Z.; Habif, J.; and Spedalieri, F.
Bulletin of the American Physical Society. 2021.
link
bibtex
@article{chua2021quantum,
title={Quantum-limited estimation of coherence under thermal noise in photon-starved states},
author={Chua, Zi and Habif, Jonathan and Spedalieri, Federico},
journal={Bulletin of the American Physical Society},
year={2021},
publisher={APS}
}
RICA: Evaluating Robust Inference Capabilities Based on Commonsense Axioms.
Zhou, P.; Khanna, R.; Lee, S.; Lin, B. Y.; Ho, D.; Pujara, J.; and Ren, X.
In
Conference on Empirical Methods in Natural Language Processing, 2021.
link
bibtex
@inproceedings{zhou:emnlp21,
Author = "Zhou, Pei and Khanna, Rahul and Lee, Seyeon and Lin, Bill Yuchen and Ho, Daniel and Pujara, Jay and Ren, Xiang",
acceptrate = "23\%",
arxiv_url = "https://arxiv.org/pdf/2005.00782.pdf",
bib_url = "/pubs/bib/zhou-emnlp21.bib",
booktitle = "Conference on Empirical Methods in Natural Language Processing",
code_url = "https://sites.google.com/usc.edu/rica",
pdf_url = "/pubs/2021/zhou-emnlp21/zhou-emnlp21.pdf",
sec = "conf",
title = "RICA: Evaluating Robust Inference Capabilities Based on Commonsense Axioms",
year = "2021"
}
RNN BASED INCREMENTAL ONLINE SPOKEN LANGUAGE UNDERSTANDING.
Sivakumar, G. P.; Kumar, N.; Georgiou, P.; and Narayanan, S.
In
In proceedings of IEEE Spoken Language Technology Workshop, Jan 2021.
link
bibtex
@inproceedings{Sivakumar2021RNNBASEDINCREMENTALONLINE,
author = {Sivakumar, Gurunath Prashanth and Kumar, Naveen and Georgiou, Panayiotis and Narayanan, Shrikanth},
booktitle = {In proceedings of IEEE Spoken Language Technology Workshop},
title = {RNN BASED INCREMENTAL ONLINE SPOKEN LANGUAGE UNDERSTANDING},
year = {2021},
month = {Jan}
}
Relative-Motion Trajectory Generation and Maintenance for Multi-Spacecraft Swarms.
Rughani, R.
Ph.D. Thesis, University of Southern California, 2021.
link
bibtex
@phdthesis{rughani2021relative,
title={Relative-Motion Trajectory Generation and Maintenance for Multi-Spacecraft Swarms},
author={Rughani, Rahul},
year={2021},
school={University of Southern California}
}
Representing Numbers in NLP: a Survey and a Vision.
Thawani, A.; Pujara, J.; Szekely, P. A; and Ilievski, F.
In
Proceedings of NAACL, 2021.
link
bibtex
@inproceedings{thawani2021representing,
title={Representing Numbers in NLP: a Survey and a Vision},
author={Thawani, Avijit and Pujara, Jay and Szekely, Pedro A and Ilievski, Filip},
booktitle={Proceedings of NAACL},
year={2021}
}
Representing Numbers in NLP: a Survey and a Vision.
Thawani, A.; Pujara, J.; Ilievski, F.; and Szekely, P.
In
Proceedings of the 2021 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies, pages 644–656, Online, June 2021. Association for Computational Linguistics
Paper
doi
link
bibtex
abstract
@inproceedings{thawani-etal-2021-representing,
title = "Representing Numbers in {NLP}: a Survey and a Vision",
author = "Thawani, Avijit and
Pujara, Jay and
Ilievski, Filip and
Szekely, Pedro",
booktitle = "Proceedings of the 2021 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies",
month = jun,
year = "2021",
address = "Online",
publisher = "Association for Computational Linguistics",
url = "https://aclanthology.org/2021.naacl-main.53",
doi = "10.18653/v1/2021.naacl-main.53",
pages = "644--656",
abstract = "NLP systems rarely give special consideration to numbers found in text. This starkly contrasts with the consensus in neuroscience that, in the brain, numbers are represented differently from words. We arrange recent NLP work on numeracy into a comprehensive taxonomy of tasks and methods. We break down the subjective notion of numeracy into 7 subtasks, arranged along two dimensions: granularity (exact vs approximate) and units (abstract vs grounded). We analyze the myriad representational choices made by over a dozen previously published number encoders and decoders. We synthesize best practices for representing numbers in text and articulate a vision for holistic numeracy in NLP, comprised of design trade-offs and a unified evaluation.",
}
NLP systems rarely give special consideration to numbers found in text. This starkly contrasts with the consensus in neuroscience that, in the brain, numbers are represented differently from words. We arrange recent NLP work on numeracy into a comprehensive taxonomy of tasks and methods. We break down the subjective notion of numeracy into 7 subtasks, arranged along two dimensions: granularity (exact vs approximate) and units (abstract vs grounded). We analyze the myriad representational choices made by over a dozen previously published number encoders and decoders. We synthesize best practices for representing numbers in text and articulate a vision for holistic numeracy in NLP, comprised of design trade-offs and a unified evaluation.
Reproducing GW150914: the first observation of gravitational waves from a binary black hole merger.
Brown, D.; Vahi, K.; Taufer, M.; Welch, V.; and Deelman, E.
Computing in Science & Engineering. 2021.
Funding Acknowledgment: NSF 1664162, NSF 1823405
doi
link
bibtex
@Article{ brown2021reproducing,
Title = {Reproducing GW150914: the first observation of
gravitational waves from a binary black hole merger},
Author = {Brown, Duncan and Vahi, Karan and Taufer, Michela and
Welch, Von and Deelman, Ewa},
Journal = {Computing in Science \& Engineering},
Year = {2021},
Publisher = {IEEE},
DOI = {10.1109/MCSE.2021.3059232},
Note = {Funding Acknowledgment: NSF 1664162, NSF 1823405}
}
Retrieving Complex Tables with Multi-Granular Graph Representation Learning.
Wang, F.; Sun, K.; Chen, M.; Pujara, J.; and Szekely, P.
In
ACM Conference on Research and Development in Information Retrieval (SIGIR), 2021.
link
bibtex
@inproceedings{wang:sigir21,
Author = "Wang, Fei and Sun, Kexuan and Chen, Muhao and Pujara, Jay and Szekely, Pedro",
acceptrate = "21\%",
bib_url = "/pubs/bib/wang-sigir21.bib",
booktitle = "ACM Conference on Research and Development in Information Retrieval (SIGIR)",
doi_url = "https://doi.org/10.1145/3404835.3462909",
pdf_url = "/pubs/2021/wang-sigir21/wang-sigir21.pdf",
sec = "conf",
title = "Retrieving Complex Tables with Multi-Granular Graph Representation Learning",
year = "2021"
}
Revisiting Nakamoto Consensus in Asynchronous Networks: A Comprehensive Analysis of Bitcoin Safety and ChainQuality.
Saad, M.; Anwar, A.; Ravi, S.; and Mohaisen, D.
In Kim, Y.; Kim, J.; Vigna, G.; and Shi, E., editor(s),
CCS '21: 2021 ACM SIGSAC Conference on Computer and Communications Security, Virtual Event, Republic of Korea, November 15 - 19, 2021, pages 988–1005, 2021. ACM
Paper
doi
link
bibtex
@inproceedings{DBLP:conf/ccs/SaadARM21,
author = {Muhammad Saad and
Afsah Anwar and
Srivatsan Ravi and
David Mohaisen},
editor = {Yongdae Kim and
Jong Kim and
Giovanni Vigna and
Elaine Shi},
title = {Revisiting Nakamoto Consensus in Asynchronous Networks: {A} Comprehensive
Analysis of Bitcoin Safety and ChainQuality},
booktitle = {{CCS} '21: 2021 {ACM} {SIGSAC} Conference on Computer and Communications
Security, Virtual Event, Republic of Korea, November 15 - 19, 2021},
pages = {988--1005},
publisher = {{ACM}},
year = {2021},
url = {https://doi.org/10.1145/3460120.3484561},
doi = {10.1145/3460120.3484561},
timestamp = {Tue, 16 Nov 2021 13:43:43 +0100},
biburl = {https://dblp.org/rec/conf/ccs/SaadARM21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
SCAN: Sequence-Character Aware Network for Text Recognition.
Hassan, H.; Torki, M.; and Hussein, M. E.
In
International Conference on Computer Vision Theory and Applications (VISAPP), 2021.
link
bibtex
@inproceedings{hassan_scan_2021,
title = {SCAN: Sequence-Character Aware Network for Text Recognition},
booktitle = {International Conference on Computer Vision Theory and Applications (VISAPP)},
year = {2021},
author = {Heba Hassan and Marwan Torki and Mohamed E. Hussein}
}
SENSOR FUSION KALMAN FILTERING FOR STABILITY AND CONTROL OF SATELLITE SWARMS.
Rughani, R.; and Barnhart, D. A
. 2021.
link
bibtex
@article{rughani2021sensor,
title={SENSOR FUSION KALMAN FILTERING FOR STABILITY AND CONTROL OF SATELLITE SWARMS},
author={Rughani, Rahul and Barnhart, David A},
year={2021}
}
SPADE: A Semi-supervised Probabilistic Approach for Detecting Errors in Tables.
Pham, M.; Knoblock, C. A.; Chen, M.; Vu, B.; and Pujara, J.
In Zhou, Z., editor(s),
Proceedings of the Thirtieth International Joint Conference on Artificial Intelligence, IJCAI-21, pages 3543–3551, August 2021.
Paper
Slides
doi
link
bibtex
@inproceedings{ijcai2021-488,
title = {SPADE: A Semi-supervised Probabilistic Approach for Detecting Errors in Tables},
author = {Pham, Minh and Knoblock, Craig A. and Chen, Muhao and Vu, Binh and Pujara, Jay},
booktitle = {Proceedings of the Thirtieth International Joint Conference on Artificial Intelligence, {IJCAI-21}},
editor = {Zhi-Hua Zhou},
pages = {3543--3551},
year = {2021},
month = {August},
doi = {10.24963/ijcai.2021/488},
url = {https://doi.org/10.24963/ijcai.2021/488},
URLslides = "http://usc-isi-i2.github.io/slides/pham-ijcai21-slides.pptx"
}
Salience-Aware Event Chain Modeling for Narrative Understanding.
Zhang, X.; Chen, M.; and May, J.
In
Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing, pages 1418–1428, Online and Punta Cana, Dominican Republic, November 2021. Association for Computational Linguistics
Paper
link
bibtex
abstract
@inproceedings{zhang-etal-2021-salience,
title = "Salience-Aware Event Chain Modeling for Narrative Understanding",
author = "Zhang, Xiyang and
Chen, Muhao and
May, Jonathan",
booktitle = "Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing",
month = nov,
year = "2021",
address = "Online and Punta Cana, Dominican Republic",
publisher = "Association for Computational Linguistics",
url = "https://aclanthology.org/2021.emnlp-main.107",
pages = "1418--1428",
abstract = "Storytelling, whether via fables, news reports, documentaries, or memoirs, can be thought of as the communication of interesting and related events that, taken together, form a concrete process. It is desirable to extract the event chains that represent such processes. However, this extraction remains a challenging problem. We posit that this is due to the nature of the texts from which chains are discovered. Natural language text interleaves a narrative of concrete, salient events with background information, contextualization, opinion, and other elements that are important for a variety of necessary discourse and pragmatics acts but are not part of the principal chain of events being communicated. We introduce methods for extracting this principal chain from natural language text, by filtering away non-salient events and supportive sentences. We demonstrate the effectiveness of our methods at isolating critical event chains by comparing their effect on downstream tasks. We show that by pre-training large language models on our extracted chains, we obtain improvements in two tasks that benefit from a clear understanding of event chains: narrative prediction and event-based temporal question answering. The demonstrated improvements and ablative studies confirm that our extraction method isolates critical event chains.",
}
Storytelling, whether via fables, news reports, documentaries, or memoirs, can be thought of as the communication of interesting and related events that, taken together, form a concrete process. It is desirable to extract the event chains that represent such processes. However, this extraction remains a challenging problem. We posit that this is due to the nature of the texts from which chains are discovered. Natural language text interleaves a narrative of concrete, salient events with background information, contextualization, opinion, and other elements that are important for a variety of necessary discourse and pragmatics acts but are not part of the principal chain of events being communicated. We introduce methods for extracting this principal chain from natural language text, by filtering away non-salient events and supportive sentences. We demonstrate the effectiveness of our methods at isolating critical event chains by comparing their effect on downstream tasks. We show that by pre-training large language models on our extracted chains, we obtain improvements in two tasks that benefit from a clear understanding of event chains: narrative prediction and event-based temporal question answering. The demonstrated improvements and ablative studies confirm that our extraction method isolates critical event chains.
Scaling Neuroscience Research using Federated Learning.
Stripelis, D.; Ambite, J. L.; Lam, P.; and Thompson, P.
In
IEEE 18th International Symposium on Biomedical Imaging (ISBI), pages 1191–1195, Nice, France, 2021.
link
bibtex
@InProceedings{stripelis2021:isbi,
author = {Dimitris Stripelis and Jos\'{e} Luis Ambite and Pradeep Lam and Paul Thompson},
title = {Scaling Neuroscience Research using Federated Learning},
booktitle = {IEEE 18th International Symposium on Biomedical Imaging {(ISBI)}},
year = {2021},
pages= {1191--1195},
address = {Nice, France},
}
SchizConnect, a virtual database for public schizophrenia neuroimaging data. .
SchizConnect
http://schizconnect.org, 2021.
[Online; accessed 16-August-2021]
link
bibtex
@misc{schizconnect,
author = {{SchizConnect}},
title = {{SchizConnect, a virtual database for public schizophrenia neuroimaging data. }},
howpublished = {http://schizconnect.org},
year = {2021},
note = {[Online; accessed 16-August-2021]}
}
Secure Cloud-Based Lynx Virtual Design Environment Enabling Accurate and Efficient Physical Verification and Fabrication Sign-Off.
Gary Thorne, F. K.; and Joshua Zusman, L. C.
In
SNUG World 2021, 2021.
link
bibtex
@inproceedings{snug2021securecloud,
title={Secure Cloud-Based Lynx Virtual Design Environment Enabling Accurate and Efficient Physical Verification and Fabrication Sign-Off},
author={Gary Thorne, Feroz Khan, Joshua Zusman, Lifu Chang},
booktitle={SNUG World 2021},
year={2021}
}
Secure Neuroimaging Analysis using Federated Learning with Homomorphic Encryption.
Stripelis, D.; Saleem, H.; Ghai, T.; Dhinagar, N.; Gupta, U.; Anastasiou, C.; Ver Steeg, G.; Ravi, S.; Naveed, M.; Thompson, P. M.; and Ambite, J. L.
In
International Symposium on Medical Information Processing and Analysis (SIPAIM), 2021.
link
bibtex
@inproceedings{dimitris_sipaim,
Author = {Dimitris Stripelis and Hamza Saleem and Tanmay Ghai and Nikhil Dhinagar and Umang Gupta and Chrysovalantis Anastasiou and Greg {Ver Steeg} and Srivatsan Ravi and Muhammad Naveed and Paul M. Thompson and Jose Luis Ambite},
Booktitle = {International Symposium on Medical Information Processing and Analysis (SIPAIM)},
Date-Added = {2021-09-01 16:25:10 -0700},
Date-Modified = {2021-09-01 16:27:45 -0700},
Title = {Secure Neuroimaging Analysis using Federated Learning with Homomorphic Encryption},
Year = {2021}}
Secure Publish-Process-Subscribe System for Dispersed Computing.
Jin, W.; Krishnamachari, B.; Naveed, M.; Ravi, S.; Sanou, E.; and Wright, K.
IACR Cryptol. ePrint Arch.,1668. 2021.
Paper
link
bibtex
@article{DBLP:journals/iacr/JinKNRSW21,
author = {Weizhao Jin and
Bhaskar Krishnamachari and
Muhammad Naveed and
Srivatsan Ravi and
Eduard Sanou and
Kwame{-}Lante Wright},
title = {Secure Publish-Process-Subscribe System for Dispersed Computing},
journal = {{IACR} Cryptol. ePrint Arch.},
pages = {1668},
year = {2021},
url = {https://eprint.iacr.org/2021/1668},
timestamp = {Thu, 13 Jan 2022 17:43:19 +0100},
biburl = {https://dblp.org/rec/journals/iacr/JinKNRSW21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Secure neuroimaging analysis using federated learning with homomorphic encryption.
Stripelis, D.; Saleem, H.; Ghai, T.; Dhinagar, N.; Gupta, U.; Anastasiou, C.; Steeg, G. V.; Ravi, S.; Naveed, M.; Thompson, P. M.; and Ambite, J. L.
In Rittner, L.; M.D., E. R. C.; Lepore, N.; Brieva, J.; and Linguraru, M. G., editor(s),
17th International Symposium on Medical Information Processing and Analysis, volume 12088, pages 351 – 359, 2021. International Society for Optics and Photonics, SPIE
Paper
doi
link
bibtex
@inproceedings{10.1117/12.2606256,
author = {Dimitris Stripelis and Hamza Saleem and Tanmay Ghai and Nikhil Dhinagar and Umang Gupta and Chrysovalantis Anastasiou and Greg Ver Steeg and Srivatsan Ravi and Muhammad Naveed and Paul M. Thompson and Jose Luis Ambite},
title = {{Secure neuroimaging analysis using federated learning with homomorphic encryption}},
volume = {12088},
booktitle = {17th International Symposium on Medical Information Processing and Analysis},
editor = {Letícia Rittner and Eduardo Romero Castro M.D. and Natasha Lepore and Jorge Brieva and Marius George Linguraru},
organization = {International Society for Optics and Photonics},
publisher = {SPIE},
pages = {351 -- 359},
keywords = {federated learning, homomorphic encryption, secure computation, privacy-preserving neuroimaging analysis, MRI, brain age, deep learning, privacy},
year = {2021},
doi = {10.1117/12.2606256},
URL = {https://doi.org/10.1117/12.2606256}
}
Semi-Synchronous Federated Learning.
Stripelis, D.; and Ambite, J. L.
arXiv:2102.02849. 2021.
link
bibtex
@Article{stripelis2021:semisync-arxiv,
author = {Dimitris Stripelis and Jos\'{e} Luis Ambite},
title = {Semi-Synchronous Federated Learning},
journal = {arXiv:2102.02849},
year = {2021},
eprint={2102.02849},
archivePrefix={arXiv},
primaryClass={cs.LG}
}
Serverless Containers – Rising Viable Approach to Scientific Workflows.
Burkat, K.; Pawlik, M.; Balis, B.; Malawski, M.; Vahi, K.; Rynge, M.; da Silva, R. F.; and Deelman, E.
In
2021 IEEE 17th International Conference on eScience (eScience), pages 40-49, 2021.
doi
link
bibtex
@InProceedings{ burkat-escience-2021,
Author = {Burkat, Krzysztof and Pawlik, Maciej and Balis, Bartosz
and Malawski, Maciej and Vahi, Karan and Rynge, Mats and da
Silva, Rafael Ferreira and Deelman, Ewa},
BookTitle = {2021 IEEE 17th International Conference on eScience
(eScience)},
Title = {Serverless Containers – Rising Viable Approach to
Scientific Workflows},
Year = {2021},
Volume = {},
Number = {},
Pages = {40-49},
DOI = {10.1109/eScience51609.2021.00014}
}
Smart quality control powered by machine learning algorithms.
Bonomi, N.; Cardoso, F.; Confalonieri, M.; Daniele, F.; Ferrario, A.; Foletti, M.; Giordano, S.; Luceri, L.; and Pedrazzoli, P.
In
2021 IEEE 17th International Conference on Automation Science and Engineering (CASE), pages 764–770, 2021. IEEE
link
bibtex
@inproceedings{bonomi2021smart,
title={Smart quality control powered by machine learning algorithms},
author={Bonomi, Niko and Cardoso, Felipe and Confalonieri, Matteo and Daniele, Fabio and Ferrario, Andrea and Foletti, Michele and Giordano, Silvia and Luceri, Luca and Pedrazzoli, Paolo},
booktitle={2021 IEEE 17th International Conference on Automation Science and Engineering (CASE)},
pages={764--770},
year={2021},
organization={IEEE}
}
Social Bots and Their Coordination During Online Campaigns: A Survey.
Khaund, T.; Kirdemir, B.; Agarwal, N.; Liu, H.; and Morstatter, F.
IEEE Transactions on Computational Social Systems. 2021.
link
bibtex
@article{khaund2021social,
title={Social Bots and Their Coordination During Online Campaigns: A Survey},
author={Khaund, Tuja and Kirdemir, Baris and Agarwal, Nitin and Liu, Huan and Morstatter, Fred},
journal={IEEE Transactions on Computational Social Systems},
year={2021},
publisher={IEEE}
}
Social Media Polarization and Echo Chambers in the Context of COVID-19: Case Study.
Jiang, J.; Ren, X.; and Ferrara, E.
JMIRx med, 2(3): e29570. 2021.
doi
link
bibtex
1 download
@article{jiang2021social,
title={Social Media Polarization and Echo Chambers in the Context of {COVID}-19: Case Study},
author={Jiang, Julie and Ren, Xiang and Ferrara, Emilio},
journal={JMIRx med},
volume={2},
number={3},
pages={e29570},
year={2021},
publisher={JMIR Publications Inc., Toronto, Canada},
doi={10.2196/29570},
}
Social Media Polarization and Echo Chambers in the Context of COVID-19: Case Study.
Jiang, J.; Ren, X.; Ferrara, E.; and others
JMIRx med, 2(3): e29570. 2021.
link
bibtex
@article{jiang2021social,
title={Social Media Polarization and Echo Chambers in the Context of COVID-19: Case Study},
author={Jiang, Julie and Ren, Xiang and Ferrara, Emilio and others},
journal={JMIRx med},
volume={2},
number={3},
pages={e29570},
year={2021},
publisher={JMIR Publications Inc., Toronto, Canada}
}
Socioeconomic Correlates of Anti-Science Attitudes in the US.
Hu, M.; Rao, A.; Kejriwal, M.; and Lerman, K.
Future Internet, 13(6): 160. 2021.
link
bibtex
2 downloads
@article{hu2021socioeconomic,
title={Socioeconomic Correlates of Anti-Science Attitudes in the US},
author={Hu, Minda and Rao, Ashwin and Kejriwal, Mayank and Lerman, Kristina},
journal={Future Internet},
volume={13},
number={6},
pages={160},
year={2021},
publisher={Multidisciplinary Digital Publishing Institute}
}
Speaker Turn Modeling for Dialogue Act Classification.
He, Z.; Tavabi, L.; Lerman, K.; and Soleymani, M.
In
Findings of the Association for Computational Linguistics: EMNLP 2021, pages 2150–2157, 2021.
link
bibtex
@inproceedings{he2021speaker,
title={Speaker Turn Modeling for Dialogue Act Classification},
author={He, Zihao and Tavabi, Leili and Lerman, Kristina and Soleymani, Mohammad},
booktitle={Findings of the Association for Computational Linguistics: EMNLP 2021},
pages={2150--2157},
year={2021}
}
StateCensusLaws.org: A Web Application for Consuming and Annotating Legal Discourse Learning.
Spangher, A.; and May, J.
CoRR, abs/2104.10263. 2021.
Paper
link
bibtex
@article{DBLP:journals/corr/abs-2104-10263,
author = {Alexander Spangher and
Jonathan May},
title = {StateCensusLaws.org: A Web Application
for Consuming and Annotating Legal Discourse Learning},
journal = {CoRR},
volume = {abs/2104.10263},
year = {2021},
url = {https://arxiv.org/abs/2104.10263},
eprinttype = {arXiv},
eprint = {2104.10263},
timestamp = {Mon, 26 Apr 2021 17:25:10 +0200},
biburl = {https://dblp.org/rec/journals/corr/abs-2104-10263.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Story Generation with Commonsense Knowledge Graphs and Axioms.
Ilievski, F.; Pujara, J.; and Zhang, H.
In
Workshop on Commonsense Reasoning and Knowledge Bases, 2021.
link
bibtex
@inproceedings{ilievski2021story,
title={Story Generation with Commonsense Knowledge Graphs and Axioms},
author={Ilievski, Filip and Pujara, Jay and Zhang, Hanzhi},
booktitle={Workshop on Commonsense Reasoning and Knowledge Bases},
year={2021}
}
Synthetic Map Generation to Provide Unlimited Training Data for Historical Map Text Detection.
Li, Z.; Guan, R.; Yu, Q.; Chiang, Y.; and Knoblock, C. A.
In
Proceedings of the 4th ACM SIGSPATIAL International Workshop on AI for Geographic Knowledge Discovery, of
GEOAI '21, pages 17–26, New York, NY, USA, 2021. Association for Computing Machinery
Paper
Slides
doi
link
bibtex
abstract
6 downloads
@inproceedings{10.1145/3486635.3491070,
author = {Li, Zekun and Guan, Runyu and Yu, Qianmu and Chiang, Yao-Yi and Knoblock, Craig A.},
title = {Synthetic Map Generation to Provide Unlimited Training Data for Historical Map Text Detection},
year = {2021},
isbn = {9781450391207},
publisher = {Association for Computing Machinery},
address = {New York, NY, USA},
url = {https://doi.org/10.1145/3486635.3491070},
doi = {10.1145/3486635.3491070},
abstract = {Many historical map sheets are publicly available for studies that require long-term historical geographic data. The cartographic design of these maps includes a combination of map symbols and text labels. Automatically reading text labels from map images could greatly speed up the map interpretation and helps generate rich metadata describing the map content. Many text detection algorithms have been proposed to locate text regions in map images automatically, but most of the algorithms are trained on out-of-domain datasets (e.g., scenic images). Training data determines the quality of machine learning models, and manually annotating text regions in map images is labor-extensive and time-consuming. On the other hand, existing geographic data sources, such as Open-StreetMap (OSM), contain machine-readable map layers, which allow us to separate out the text layer and obtain text label annotations easily. However, the cartographic styles between OSM map tiles and historical maps are significantly different. This paper proposes a method to automatically generate an unlimited amount of annotated historical map images for training text detection models. We use a style transfer model to convert contemporary map images into historical style and place text labels upon them. We show that the state-of-the-art text detection models (e.g., PSENet) can benefit from the synthetic historical maps and achieve significant improvement for historical map text detection.},
booktitle = {Proceedings of the 4th ACM SIGSPATIAL International Workshop on AI for Geographic Knowledge Discovery},
pages = {17–26},
numpages = {10},
keywords = {historical maps, text detection, datasets, synthetic data generation},
location = {Beijing, China},
series = {GEOAI '21},
URLslides = "http://usc-isi-i2.github.io/slides/li-sigspatial21-slides.pdf"
}
Many historical map sheets are publicly available for studies that require long-term historical geographic data. The cartographic design of these maps includes a combination of map symbols and text labels. Automatically reading text labels from map images could greatly speed up the map interpretation and helps generate rich metadata describing the map content. Many text detection algorithms have been proposed to locate text regions in map images automatically, but most of the algorithms are trained on out-of-domain datasets (e.g., scenic images). Training data determines the quality of machine learning models, and manually annotating text regions in map images is labor-extensive and time-consuming. On the other hand, existing geographic data sources, such as Open-StreetMap (OSM), contain machine-readable map layers, which allow us to separate out the text layer and obtain text label annotations easily. However, the cartographic styles between OSM map tiles and historical maps are significantly different. This paper proposes a method to automatically generate an unlimited amount of annotated historical map images for training text detection models. We use a style transfer model to convert contemporary map images into historical style and place text labels upon them. We show that the state-of-the-art text detection models (e.g., PSENet) can benefit from the synthetic historical maps and achieve significant improvement for historical map text detection.
Systematizing confidence in open research and evidence (score).
Alipourfard, N.; Arendt, B.; Benjamin, D. M; Benkler, N.; Bishop, M.; Burstein, M.; Bush, M.; Caverlee, J.; Chen, Y.; Clark, C.; and others
. 2021.
link
bibtex
@article{alipourfard2021systematizing,
title={Systematizing confidence in open research and evidence (score)},
author={Alipourfard, Nazanin and Arendt, Beatrix and Benjamin, Daniel M and Benkler, Noam and Bishop, Michael and Burstein, Mark and Bush, Martin and Caverlee, James and Chen, Yiling and Clark, Chae and others},
year={2021},
publisher={SocArXiv}
}
Table-based Fact Verification With Salience-aware Learning.
Wang, F.; Sun, K.; Pujara, J.; Szekely, P. A; and Chen, M.
In
EMNLP - Findings, 2021.
link
bibtex
@inproceedings{wang2021table,
title={Table-based Fact Verification With Salience-aware Learning},
author={Wang, Fei and Sun, Kexuan and Pujara, Jay and Szekely, Pedro A and Chen, Muhao},
booktitle={EMNLP - Findings},
year={2021}
}
Tabular Functional Block Detection with Embedding-based Agglomerative Cell Clustering.
Sun, K.; Wang, F.; Chen, M.; and Pujara, J.
In
CIKM, 2021.
link
bibtex
@inproceedings{sun2021tabular,
title={Tabular Functional Block Detection with Embedding-based Agglomerative Cell Clustering},
author={Sun, Kexuan and Wang, Fei and Chen, Muhao and Pujara, Jay},
booktitle={CIKM},
year={2021}
}
Teaching Parallel and Distributed Computing Concepts in Simulation with WRENCH.
Casanova, H.; Tanaka, R.; Koch, W.; and Ferreira da Silva, R.
Journal of Parallel and Distributed Computing. 2021.
Funding Acknowledgments: NSF 1923539, NSF 1642335
doi
link
bibtex
@article{casanova2021jpdc,
title = {Teaching Parallel and Distributed Computing Concepts in Simulation with WRENCH},
author = {Casanova, Henri and Tanaka, Ryan and Koch, William and Ferreira da Silva, Rafael},
journal = {Journal of Parallel and Distributed Computing},
volume = {},
number = {},
pages = {},
doi = {10.1016/j.jpdc.2021.05.009},
year = {2021},
note = {Funding Acknowledgments: NSF 1923539, NSF 1642335}
}
Temporal Dynamics of Workplace Acoustic Scenes: Egocentric Analysis and Prediction.
Jati, A.; Nadarajan, A.; Peri, R.; Mundnich, K.; Feng, T.; Girault, B.; and Narayanan, S.
IEEE/ACM Transactions on Audio, Speech and Language Processing. Jan 2021.
doi
link
bibtex
@article{Jati2021TemporalDynamicsofWorkplace,
author = {Jati, Arindam and Nadarajan, Amrutha and Peri, Raghuveer and Mundnich, Karel and Feng, Tiantian and Girault, Benjamin and Narayanan, Shrikanth},
journal = {IEEE/ACM Transactions on Audio, Speech and Language Processing},
title = {Temporal Dynamics of Workplace Acoustic Scenes: Egocentric Analysis and Prediction},
doi = {https://doi.org/10.1109/TASLP.2021.3050265},
link = {http://sail.usc.edu/publications/files/Jati-TASLP2021.pdf},
year = {2021},
month = {Jan}
}
Testing a Quantum Annealer as a Quantum Thermal Sampler.
Izquierdo, Z. G.; Hen, I.; and Albash, T.
ACM Transactions on Quantum Computing, 2(2). jul 2021.
Paper
doi
link
bibtex
abstract
@article{10.1145/3464456, author = {Izquierdo, Zoe Gonzalez and Hen, Itay and Albash, Tameem}, title = {Testing a Quantum Annealer as a Quantum Thermal Sampler}, year = {2021}, issue_date = {June 2021}, publisher = {Association for Computing Machinery}, address = {New York, NY, USA}, volume = {2}, number = {2}, issn = {2643-6809}, url = {https://doi.org/10.1145/3464456}, doi = {10.1145/3464456}, abstract = {Motivated by recent experiments in which specific thermal properties of complex many-body systems were successfully reproduced on a commercially available quantum annealer, we examine the extent to which quantum annealing hardware can reliably sample from the thermal state in a specific basis associated with a target quantum Hamiltonian. We address this question by studying the diagonal thermal properties of the canonical one-dimensional transverse-field Ising model on a D-Wave 2000Q quantum annealing processor. We find that the quantum processor fails to produce the correct expectation values predicted by Quantum Monte Carlo. Comparing to master equation simulations, we find that this discrepancy is best explained by how the measurements at finite transverse fields are enacted on the device. Specifically, measurements at finite transverse field require the system to be quenched from the target Hamiltonian to a Hamiltonian with negligible transverse field, and this quench is too slow. The limitations imposed by such hardware make it an unlikely candidate for thermal sampling, and it remains an open question what thermal expectation values can be robustly estimated in general for arbitrary quantum many-body systems.}, journal = {ACM Transactions on Quantum Computing}, month = {jul}, articleno = {7}, numpages = {20}, keywords = {Quantum annealing} }
Motivated by recent experiments in which specific thermal properties of complex many-body systems were successfully reproduced on a commercially available quantum annealer, we examine the extent to which quantum annealing hardware can reliably sample from the thermal state in a specific basis associated with a target quantum Hamiltonian. We address this question by studying the diagonal thermal properties of the canonical one-dimensional transverse-field Ising model on a D-Wave 2000Q quantum annealing processor. We find that the quantum processor fails to produce the correct expectation values predicted by Quantum Monte Carlo. Comparing to master equation simulations, we find that this discrepancy is best explained by how the measurements at finite transverse fields are enacted on the device. Specifically, measurements at finite transverse field require the system to be quenched from the target Hamiltonian to a Hamiltonian with negligible transverse field, and this quench is too slow. The limitations imposed by such hardware make it an unlikely candidate for thermal sampling, and it remains an open question what thermal expectation values can be robustly estimated in general for arbitrary quantum many-body systems.
The Danish Gigaword Corpus.
Strømberg-Derczynski, L.; Ciosici, M.; Baglini, R.; Christiansen, M. H.; Dalsgaard, J. A.; Fusaroli, R.; Henrichsen, P. J.; Hvingelby, R.; Kirkedal, A.; Kjeldsen, A. S.; Ladefoged, C.; Nielsen, F. Å.; Madsen, J.; Petersen, M. L.; Rystrøm, J. H.; and Varab, D.
In
Proceedings of the 23rd Nordic Conference on Computational Linguistics (NoDaLiDa), pages 413–421, Reykjavik, Iceland (Online), May31–2 June 2021. Linköping University Electronic Press, Sweden
Paper
link
bibtex
abstract
@inproceedings{stromberg-derczynski-etal-2021-danish,
abstract = {Danish language technology has been hindered by a lack of broad-coverage corpora at the scale modern NLP prefers. This paper describes the Danish Gigaword Corpus, the result of a focused effort to provide a diverse and freely-available one billion word corpus of Danish text. The Danish Gigaword corpus covers a wide array of time periods, domains, speakers{'} socio-economic status, and Danish dialects.},
address = {Reykjavik, Iceland (Online)},
author = {Str{\o}mberg-Derczynski, Leon and Ciosici, Manuel and Baglini, Rebekah and Christiansen, Morten H. and Dalsgaard, Jacob Aarup and Fusaroli, Riccardo and Henrichsen, Peter Juel and Hvingelby, Rasmus and Kirkedal, Andreas and Kjeldsen, Alex Speed and Ladefoged, Claus and Nielsen, Finn {\AA}rup and Madsen, Jens and Petersen, Malte Lau and Rystr{\o}m, Jonathan Hvithamar and Varab, Daniel},
booktitle = {Proceedings of the 23rd Nordic Conference on Computational Linguistics (NoDaLiDa)},
month = may # { 31--2 } # jun,
pages = {413--421},
publisher = {Link{\"o}ping University Electronic Press, Sweden},
title = {The {D}anish {G}igaword Corpus},
url = {https://aclanthology.org/2021.nodalida-main.46},
year = {2021},
bdsk-url-1 = {https://aclanthology.org/2021.nodalida-main.46}}
Danish language technology has been hindered by a lack of broad-coverage corpora at the scale modern NLP prefers. This paper describes the Danish Gigaword Corpus, the result of a focused effort to provide a diverse and freely-available one billion word corpus of Danish text. The Danish Gigaword corpus covers a wide array of time periods, domains, speakers' socio-economic status, and Danish dialects.
The Pegasus Workflow Management System: Translational Computer Science in Practice.
Deelman, E.; Ferreira da Silva, R.; Vahi, K.; Rynge, M.; Mayani, R.; Tanaka, R.; Whitcup, W.; and Livny, M.
Journal of Computational Science, 52: 101200. 2021.
Funding Acknowledgments: NSF 1664162
doi
link
bibtex
1 download
@Article{ deelman2020jocs,
Title = {The Pegasus Workflow Management System: Translational
Computer Science in Practice},
Author = {Deelman, Ewa and Ferreira da Silva, Rafael and Vahi, Karan
and Rynge, Mats and Mayani, Rajiv and Tanaka, Ryan and
Whitcup, Wendy and Livny, Miron},
Journal = {Journal of Computational Science},
Volume = {52},
Number = {},
Pages = {101200},
Year = {2021},
DOI = {10.1016/j.jocs.2020.101200},
Note = {Funding Acknowledgments: NSF 1664162}
}
The Wide, the Deep, and the Maverick: Types of Players in Team-based Online Games.
Jiang, J.; Maldeniya, D.; Lerman, K.; and Ferrara, E.
Proceedings of the ACM on Human-Computer Interaction, 5(CSCW1): 1–26. 2021.
link
bibtex
@article{jiang2021wide,
title={The Wide, the Deep, and the Maverick: Types of Players in Team-based Online Games},
author={Jiang, Julie and Maldeniya, Danaja and Lerman, Kristina and Ferrara, Emilio},
journal={Proceedings of the ACM on Human-Computer Interaction},
volume={5},
number={CSCW1},
pages={1--26},
year={2021},
publisher={ACM New York, NY, USA}
}
The emergence of heterogeneous scaling in research institutions.
Burghardt, K. A; He, Z.; Percus, A. G; and Lerman, K.
Communications Physics, 4(1): 1–6. 2021.
link
bibtex
@article{burghardt2021emergence,
title={The emergence of heterogeneous scaling in research institutions},
author={Burghardt, Keith A and He, Zihao and Percus, Allon G and Lerman, Kristina},
journal={Communications Physics},
volume={4},
number={1},
pages={1--6},
year={2021},
publisher={Nature Publishing Group}
}
The impact of peer review on the contribution potential of scientific papers.
Matsui, A.; Chen, E.; Wang, Y.; and Ferrara, E.
PeerJ, 9: e11999. 2021.
link
bibtex
@article{matsui2021impact,
title={The impact of peer review on the contribution potential of scientific papers},
author={Matsui, Akira and Chen, Emily and Wang, Yunwen and Ferrara, Emilio},
journal={PeerJ},
volume={9},
pages={e11999},
year={2021},
publisher={PeerJ Inc.}
}
Toward a fine-scale population health monitoring system.
Belbin, G. M.; Cullina, S.; Wenric, S.; Soper, E. R.; Glicksberg, B. S.; Torre, D.; Moscati, A.; Wojcik, G. L.; Shemirani, R.; Beckmann, N. D.; Cohain, A.; Sorokin, E. P.; Park, D. S.; Ambite, J. L.; Ellis, S.; Auton, A.; Bottinger, E. P.; Cho, J. H.; Loos, R. J. F.; Abul-Husn, N. S.; Zaitlen, N. A.; Gignoux, C. R.; and Kenny, E. E.
Cell, 184(8): 2068–2083.e11. April 2021.
Paper
doi
link
bibtex
@article{belbin2021,
title = {Toward a fine-scale population health monitoring system},
volume = {184},
issn = {0092-8674},
url = {https://www.sciencedirect.com/science/article/pii/S0092867421003652},
doi = {10.1016/j.cell.2021.03.034},
language = {en},
number = {8},
urldate = {2021-04-17},
journal = {Cell},
author = {Belbin, Gillian M. and Cullina, Sinead and Wenric, Stephane and Soper, Emily R. and Glicksberg, Benjamin S. and Torre, Denis and Moscati, Arden and Wojcik, Genevieve L. and Shemirani, Ruhollah and Beckmann, Noam D. and Cohain, Ariella and Sorokin, Elena P. and Park, Danny S. and Ambite, Jos\'{e} Luis and Ellis, Steve and Auton, Adam and Bottinger, Erwin P. and Cho, Judy H. and Loos, Ruth J. F. and Abul-Husn, Noura S. and Zaitlen, Noah A. and Gignoux, Christopher R. and Kenny, Eimear E.},
month = apr,
year = {2021},
keywords = {biobanks, computational genomics, electronic health records, genetic ancestry, genomic medicine, health disparities, machine learning, population health},
pages = {2068--2083.e11},
}
Towards Scalable, Energy-Efficient and Ultra-Fast Optical SRAM.
Ramesh Kudalippalliyalil, S. C.; and Ajey P Jacob, A. J.
arXiv preprint arXiv:2111.13682. 2021.
link
bibtex
@article{opticalsram,
title={Towards Scalable, Energy-Efficient and Ultra-Fast Optical SRAM},
author={Ramesh Kudalippalliyalil, Sujith Chandran, Ajey P Jacob, Akhilesh Jaiswal},
journal={arXiv preprint arXiv:2111.13682},
year={2021}
}
Towards a traffic map of the Internet: Connecting the dots between popular services and users.
Koch, T.; Jiang, W.; Luo, T.; Gigis, P.; Zhang, Y.; Vermeulen, K.; Aben, E.; Calder, M.; Katz-Bassett, E.; Manassakis, L.; Smaragdakis, G.; and Vallina-Rodriguez, N.
In
Proceedings of the ACM Workshop on Hot Topics in Networks, Virtual Event, 2021. ACM
doi
link
bibtex
@InProceedings{Koch21b,
author = "Thomas Koch and Weifan Jiang and Tao Luo and
Petros Gigis and Yunfan Zhang and Kevin Vermeulen
and Emile Aben and Matt Calder and Ethan
Katz-Bassett and Lefteris Manassakis and Georgios Smaragdakis and Narseo Vallina-Rodriguez",
title = "Towards a traffic map of the Internet: Connecting the dots between popular services and users",
booktitle = "Proceedings of the " # "ACM Workshop on Hot Topics in Networks",
year = 2021,
sortdate = "2021-11-10",
project = "internetmap",
address = "Virtual Event",
publisher = "ACM",
jlocation = "johnh: pafile",
keywords = "user map, service map, traffic map",
doi = "https://doi.org/10.1145/3484266.3487371",
}
Tracking e-cigarette warning label compliance on Instagram with deep learning.
Kennedy, C. J; Vassey, J.; Chang, H. H.; Unger, J. B; and Ferrara, E.
arXiv preprint arXiv:2102.04568. 2021.
link
bibtex
@article{kennedy2021tracking,
title={Tracking e-cigarette warning label compliance on Instagram with deep learning},
author={Kennedy, Chris J and Vassey, Julia and Chang, Ho-Chun Herbert and Unger, Jennifer B and Ferrara, Emilio},
journal={arXiv preprint arXiv:2102.04568},
year={2021}
}
Transfer Learning Through Embedding Spaces.
Rostami, M.
CRC Press, 2021.
link
bibtex
@book{rostami2021transfer,
title={Transfer Learning Through Embedding Spaces},
author={Rostami, Mohammad},
year={2021},
publisher={CRC Press}
}
TsuNAME vulnerability and DDoS against DNS.
Moura, G. C. M.; Castro, S.; Heidemann, J.; and Hardaker, W.
Technical Report ISI-TR-740, USC/Information Sciences Institute, May 2021.
Paper
link
bibtex
abstract
@TechReport{Moura21a,
author = "Giovane C. M. Moura and Sebastian Castro and John Heidemann and
Wes Hardaker",
title = "{TsuNAME} vulnerability and {DDoS} against {DNS}",
institution = "USC/Information Sciences Institute",
year = 2021,
month = may,
sortdate = "2020-05-11",
project = "ant, lacanic, paaddos, ddidd",
jsubject = "network_security",
number = "ISI-TR-740",
jlocation = "johnh: pafile",
keywords = "anycast, dns, tcp, latency, root, .nl-tld,tsuname, vunerability",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Moura21a.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Moura21a.pdf",
otherurl = "https://www.isi.edu/publications/trpublic/pdfs/isi-tr-740.pdf",
otherotherurl = "https://tsuname.io/tech_report.pdf",
myorganization = "USC/Information Sciences Institute",
copyrightholder = "authors",
abstract = "
The Internet's Domain Name System (DNS) is one of the core services on
the Internet. Every web page visit requires a series of DNS queries, and
large DNS failures may have cascading consequences, leading to
unreachability of major websites and services. In this paper we present
TsuNAME, a vulnerability in some DNS resolvers that can be exploited to
carry out denial-of-service attacks against authoritative
servers. TsuNAME occurs when domain names are misconfigured with cyclic
dependent DNS records, and when vulnerable resolvers access these
misconfigurations, they begin looping and send DNS queries rapidly to
authoritative servers and other resolvers (we observe up to 5.6k
queries/s). Using production data from .nz , the country-code top-level
domain (ccTLD) of New Zealand, we show how only two misconfigured
domains led to a 50\% increase on overall traffic volume for the .nz's
authoritative servers. To understand this event, we reproduce TsuNAME
using our own configuration, demonstrating that it could be used to
overwhelm any DNS Zone. A solution to TsuNAME requires changes to some
recursive resolver software, by including loop detection codes and
caching cyclic dependent records. To reduce the impact of TsuNAME in the
wild, we have developed and released CycleHunter, an open-source tool
that allows for authoritative DNS server operators to detect cyclic
dependencies and prevent becoming victims of TsuNAME attacks. We use
CycleHunter to evaluate roughly 184 million domain names in 7 large,
top-level domains (TLDs), finding 44 cyclic dependent NS records (likely
from configuration errors) used by 1.4k domain names. However, a well
motivated adversary could easily weaponize this vulnerability. We have
notified resolver developers and many TLD operators of this
vulnerability. Working together with Google, we helped them in mitigate
their vulnerability to TsuNAME.",
}
The Internet's Domain Name System (DNS) is one of the core services on the Internet. Every web page visit requires a series of DNS queries, and large DNS failures may have cascading consequences, leading to unreachability of major websites and services. In this paper we present TsuNAME, a vulnerability in some DNS resolvers that can be exploited to carry out denial-of-service attacks against authoritative servers. TsuNAME occurs when domain names are misconfigured with cyclic dependent DNS records, and when vulnerable resolvers access these misconfigurations, they begin looping and send DNS queries rapidly to authoritative servers and other resolvers (we observe up to 5.6k queries/s). Using production data from .nz , the country-code top-level domain (ccTLD) of New Zealand, we show how only two misconfigured domains led to a 50% increase on overall traffic volume for the .nz's authoritative servers. To understand this event, we reproduce TsuNAME using our own configuration, demonstrating that it could be used to overwhelm any DNS Zone. A solution to TsuNAME requires changes to some recursive resolver software, by including loop detection codes and caching cyclic dependent records. To reduce the impact of TsuNAME in the wild, we have developed and released CycleHunter, an open-source tool that allows for authoritative DNS server operators to detect cyclic dependencies and prevent becoming victims of TsuNAME attacks. We use CycleHunter to evaluate roughly 184 million domain names in 7 large, top-level domains (TLDs), finding 44 cyclic dependent NS records (likely from configuration errors) used by 1.4k domain names. However, a well motivated adversary could easily weaponize this vulnerability. We have notified resolver developers and many TLD operators of this vulnerability. Working together with Google, we helped them in mitigate their vulnerability to TsuNAME.
TsuNAME: exploiting misconfiguration and vulnerability to DDoS DNS.
Moura, G. C. M.; Castro, S.; Heidemann, J.; and Hardaker, W.
In
Proceedings of the ACM Internet Measurement Conference, pages 398–418, Virtual, November 2021. ACM
Paper
doi
link
bibtex
abstract
@InProceedings{Moura21b,
author = "Giovane C. M. Moura and Sebastian Castro and
John Heidemann and Wes Hardaker",
title = "{TsuNAME}: exploiting misconfiguration and vulnerability to {DDoS} {DNS}",
booktitle = "Proceedings of the " # "ACM Internet Measurement Conference",
year = 2021,
sortdate = "2021-11-02",
project = "ant, lacanic, paaddos, ddidd",
jsubject = "network_security",
pages = "398--418",
month = nov,
address = "Virtual",
publisher = "ACM",
jlocation = "johnh: pafile",
keywords = "anycast, dns, tcp, latency, root, .nl-tld,tsuname, vunerability",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Moura21b.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Moura21b.pdf",
doi = "https://doi.org/10.1145/3487552.3487824",
abstract = "The Internet's Domain Name System (DNS) is a part of every web request
and e-mail exchange, so DNS failures can be catastrophic, taking out
major websites and services. This paper identifies TsuNAME, a
vulnerability where some recursive resolvers can greatly amplify
queries, potentially resulting in a denial-of-service to DNS services.
TsuNAME is caused by cyclical dependencies in DNS records. A
recursive resolver repeatedly follows these cycles, coupled with
insufficient caching and application-level retries greatly amplify an
initial query, stressing authoritative servers. Although issues with
cyclic dependencies are not new, the scale of amplification has not
previously been understood. We document real-world events in .nz (a
country-level domain), where two misconfigured domains resulted in a
50\% increase on overall traffic. We reproduce and document root
causes of this event through experiments, and demostrate a 500x
amplification factor. In response to our disclosure, several DNS
software vendors have documented their mitigations, including Google
public DNS. For operators of authoritative DNS services we have
developed and released CycleHunter, an open-source tool that detect
cyclic dependencies and prevent attacks. We use CycleHunter to
evaluate roughly 184 million domain names in 7 large, top-level
domains (TLDs), finding 44 cyclic dependent NS records used by 1.4k
domain names. The TsuNAME vulnerability is weaponizable, since an
adversary can easily create cycles to attack the infrastructure of a
parent domains. Documenting this threat and its solutions is an
important step to ensuring it is fully addressed.",
}
The Internet's Domain Name System (DNS) is a part of every web request and e-mail exchange, so DNS failures can be catastrophic, taking out major websites and services. This paper identifies TsuNAME, a vulnerability where some recursive resolvers can greatly amplify queries, potentially resulting in a denial-of-service to DNS services. TsuNAME is caused by cyclical dependencies in DNS records. A recursive resolver repeatedly follows these cycles, coupled with insufficient caching and application-level retries greatly amplify an initial query, stressing authoritative servers. Although issues with cyclic dependencies are not new, the scale of amplification has not previously been understood. We document real-world events in .nz (a country-level domain), where two misconfigured domains resulted in a 50% increase on overall traffic. We reproduce and document root causes of this event through experiments, and demostrate a 500x amplification factor. In response to our disclosure, several DNS software vendors have documented their mitigations, including Google public DNS. For operators of authoritative DNS services we have developed and released CycleHunter, an open-source tool that detect cyclic dependencies and prevent attacks. We use CycleHunter to evaluate roughly 184 million domain names in 7 large, top-level domains (TLDs), finding 44 cyclic dependent NS records used by 1.4k domain names. The TsuNAME vulnerability is weaponizable, since an adversary can easily create cycles to attack the infrastructure of a parent domains. Documenting this threat and its solutions is an important step to ensuring it is fully addressed.
Understanding COVID-19 Vaccine Reaction through Comparative Analysis on Twitter.
Luo, Y.; and Kejriwal, M.
CoRR, abs/2111.05823. 2021.
Paper
link
bibtex
@article{DBLP:journals/corr/abs-2111-05823,
author = {Yuesheng Luo and
Mayank Kejriwal},
title = {Understanding {COVID-19} Vaccine Reaction through Comparative Analysis
on Twitter},
journal = {CoRR},
volume = {abs/2111.05823},
year = {2021},
url = {https://arxiv.org/abs/2111.05823},
eprinttype = {arXiv},
eprint = {2111.05823},
timestamp = {Tue, 16 Nov 2021 00:00:00 +0100},
biburl = {https://dblp.org/rec/journals/corr/abs-2111-05823.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Understanding Model Drift in a Large Cellular Network.
Liu, S.; Bronzino, F.; Schmitt, P.; Feamster, N.; Borges, R.; Crespo, H. G.; and Ward, B.
CoRR, abs/2109.03011. 2021.
Paper
link
bibtex
@article{DBLP:journals/corr/abs-2109-03011,
author = {Shinan Liu and
Francesco Bronzino and
Paul Schmitt and
Nick Feamster and
Ricardo Borges and
Hector Garcia Crespo and
Brian Ward},
title = {Understanding Model Drift in a Large Cellular Network},
journal = {CoRR},
volume = {abs/2109.03011},
year = {2021},
url = {https://arxiv.org/abs/2109.03011},
eprinttype = {arXiv},
eprint = {2109.03011},
}
% END PROCEEDINGS SECTION - shared definitions for conferences, journals, No
% normal entries should occur below or in this section.
%
% *** SCROLL UP!***
Unsupervised DNF Blocking for Efficient Linking of Knowledge Graphs and Tables.
Kejriwal, M.
Inf., 12(3): 134. 2021.
Paper
doi
link
bibtex
6 downloads
@article{DBLP:journals/information/Kejriwal21,
author = {Mayank Kejriwal},
title = {Unsupervised {DNF} Blocking for Efficient Linking of Knowledge Graphs
and Tables},
journal = {Inf.},
volume = {12},
number = {3},
pages = {134},
year = {2021},
url = {https://doi.org/10.3390/info12030134},
doi = {10.3390/info12030134},
timestamp = {Wed, 07 Apr 2021 01:00:00 +0200},
biburl = {https://dblp.org/rec/journals/information/Kejriwal21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Unsupervised Model Adaptation for Continual Semantic Segmentation.
Stan, S.; and Rostami, M.
In
Proceedings of the AAAI Conference on Artificial Intelligence, volume 35, pages 2593–2601, 2021.
link
bibtex
@inproceedings{stan2021unsupervised,
title={Unsupervised Model Adaptation for Continual Semantic Segmentation},
author={Stan, Serban and Rostami, Mohammad},
booktitle={Proceedings of the AAAI Conference on Artificial Intelligence},
volume={35},
number={3},
pages={2593--2601},
year={2021}
}
Unsupervised real-time induction and interactive visualization of taxonomies over domain-specific concepts.
Kejriwal, M.; and Shen, K.
In
Proceedings of the 2021 IEEE/ACM International Conference on Advances in Social Networks Analysis and Mining, pages 301–304, 12 2021.
link
bibtex
@inproceedings{kejriwal2021unsupervised,
title={Unsupervised real-time induction and interactive visualization of taxonomies over domain-specific concepts},
author={Kejriwal, Mayank and Shen, Ke},
booktitle={Proceedings of the 2021 IEEE/ACM International Conference on Advances in Social Networks Analysis and Mining},
pages={301--304},
year={2021},
month={12}
}
User Experiences on Network Testbeds.
Mirkovic, J.; and Pusey, P.
In
Proceedings of 14th Cyber Security Experimentation and Test (CSET), 2021.
link
bibtex
@inproceedings{experiences,
title={User Experiences on Network Testbeds},
author={Jelena Mirkovic and Portia Pusey},
booktitle={Proceedings of 14th Cyber Security Experimentation and Test (CSET)},year={2021}
}
User-friendly Comparison of Similarity Algorithms on Wikidata.
Ilievski, F.; Szekely, P.; Satyukov, G.; and Singh, A.
In
Wikidata-21 workshop, 2021.
link
bibtex
@inproceedings{ilievski2021user,
title={User-friendly Comparison of Similarity Algorithms on Wikidata},
author={Ilievski, Filip and Szekely, Pedro and Satyukov, Gleb and Singh, Amandeep},
booktitle={Wikidata-21 workshop},
year={2021}
}
Using Dynamic Time Warping Self-Organizing Maps to Characterize Diurnal Patterns in Environmental Exposures.
Li, K.; Sward, K.; Deng, H.; Morrison, J.; Habre, R.; Franklin, M.; Chiang, Y.; Ambite, J.; Wilson, J. P.; and Eckel, S. P.
Scientific Reports, 11(1): 24052. 2021.
doi
link
bibtex
@Article{li2021:scirep,
author = {Kenan Li and Katherine Sward and Huiyu Deng and John Morrison and Rima Habre and Meredith Franklin and Yao-Yi Chiang and Jose-Luis Ambite and John P. Wilson and Sandrah P. Eckel},
title = {Using Dynamic Time Warping Self-Organizing Maps to Characterize Diurnal Patterns in Environmental Exposures},
journal = {Scientific Reports},
year = {2021},
volume = {11},
number = {1},
pages = {24052},
doi = {10.1038/s41598-021-03515-1},
pmid = {34912034},
pmcid = {PMC8674322},
}
Using Word Embedding to Reveal Monetary Policy Explanation Changes.
Matsui, A.; Ren, X.; and Ferrara, E.
In
Proceedings of the Third Workshop on Economics and Natural Language Processing, pages 56–61, 2021.
link
bibtex
@inproceedings{matsui2021using,
title={Using Word Embedding to Reveal Monetary Policy Explanation Changes},
author={Matsui, Akira and Ren, Xiang and Ferrara, Emilio},
booktitle={Proceedings of the Third Workshop on Economics and Natural Language Processing},
pages={56--61},
year={2021}
}
Viola: A Topic Agnostic Generate-and-Rank Dialogue System.
Cho, H.; Shbita, B.; Shenoy, K.; Liu, S.; Patel, N.; Pindikanti, H.; Lee, J.; and May, J.
CoRR, abs/2108.11063. 2021.
Paper
link
bibtex
7 downloads
@article{DBLP:journals/corr/abs-2108-11063,
author = {Hyundong Cho and
Basel Shbita and
Kartik Shenoy and
Shuai Liu and
Nikhil Patel and
Hitesh Pindikanti and
Jennifer Lee and
Jonathan May},
title = {Viola: {A} Topic Agnostic Generate-and-Rank Dialogue System},
journal = {CoRR},
volume = {abs/2108.11063},
year = {2021},
url = {https://arxiv.org/abs/2108.11063},
eprinttype = {arXiv},
eprint = {2108.11063},
timestamp = {Fri, 27 Aug 2021 15:02:29 +0200},
biburl = {https://dblp.org/rec/journals/corr/abs-2108-11063.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Virtual machine allocation analysis for physical network deployments.
Ganesh Chennimalai Sankaran, B. V. V.
March~2 2021.
US Patent 10,936,355
link
bibtex
@misc{ganesh2021virtual,
title={Virtual machine allocation analysis for physical network deployments},
author={Ganesh Chennimalai Sankaran, Balaji Venkat Venkataswami},
year={2021},
month=mar # "~2",
note={US Patent 10,936,355}
}
VisDict: Enhancing the Communication between Workflow Providers and User Communities via a Visual Dictionary.
Gesing, S.; Ferreira da Silva, R.; Deelman, E.; Hildreth, M.; McDowell, M. A.; Meyers, N.; Taylor, I.; and Tain, D.
In
2021 IEEE/ACM Workflows in Support of Large-Scale Science (WORKS), 2021.
link
bibtex
@InProceedings{ gesing-works-2021,
Title = {VisDict: Enhancing the Communication between Workflow
Providers and User Communities via a Visual Dictionary},
Author = {Gesing, Sandra and Ferreira da Silva, Rafael and Deelman,
Ewa and Hildreth, Michael and McDowell, Mary Ann and
Meyers, Natalie and Taylor, Ian and Tain, Douglas},
BookTitle = {2021 IEEE/ACM Workflows in Support of Large-Scale Science
(WORKS)},
Year = {2021},
Pages = {},
DOI = {}
}
VisDict: Enhancing the Communication between Workflow Providers and User Communities via a Visual Dictionary.
Gesing, S.; Ferreira da Silva, R.; Deelman, E.; Hildreth, M.; McDowell, M. A.; Natalie, M.; Ian, T.; and Douglas, T.
In
2021 IEEE/ACM Workflows in Support of Large-Scale Science (WORKS), 2021.
link
bibtex
@InProceedings{ gesing-works-2021,
Title = {VisDict: Enhancing the Communication between Workflow
Providers and User Communities via a Visual Dictionary},
Author = {Gesing, Sandra and Ferreira da Silva, Rafael and Deelman,
Ewa and Hildreth, Michael and McDowell, Mary Ann and Meyers
Natalie and Taylor Ian and Tain Douglas},
BookTitle = {2021 IEEE/ACM Workflows in Support of Large-Scale Science
(WORKS)},
Year = {2021},
Pages = {},
DOI = {}
}
Visual Pivoting for (Unsupervised) Entity Alignment.
Liu, F.; Chen, M.; Roth, D.; and Collier, N.
In
AAAI, 2021.
link
bibtex
@inproceedings{liu2021visual,
title={Visual Pivoting for (Unsupervised) Entity Alignment},
author={Liu, Fangyu and Chen, Muhao and Roth, Dan and Collier, Nigel},
booktitle={AAAI},
year={2021}
}
Visualizing Internet Measurements of Covid-19 Work-from-Home.
Stutz, E.; Pradkin, Y.; Song, X.; and Heidemann, J.
In
Proceedings of the National Symposium for NSF REU Research in Data Science, Systems, and Security (REU 2021 Symposium), pages 5633–5638, Virtual Workshop, December 2021. IEEE
Paper
doi
link
bibtex
abstract
@InProceedings{Stutz21a,
author = "Erica Stutz and Yuri Pradkin and Xiao Song and John Heidemann",
title = "Visualizing {Internet} Measurements of
{Covid-19} Work-from-Home",
booktitle = "Proceedings of the " # "National Symposium for NSF REU Research in Data Science, Systems, and Security (REU 2021 Symposium)",
year = 2021,
sortdate = "2021-12-15",
project = "ant, minceq, eieio, reu, isireu",
jsubject = "topology_modeling",
pages = "5633--5638",
month = dec,
address = "Virtual Workshop",
publisher = "IEEE",
jlocation = "johnh: pafile",
keywords = "covid-19, work-from-home, visualization, trinocular",
doi = "https://doi.org/10.1109/BigData52589.2021.9671311",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Stutz21a.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Stutz21a.pdf",
conferenceurl = "https://bigdataieee.org/BigData2021/SpecialSymposium.html",
abstract = "The Covid-19 pandemic disrupted the world as businesses and schools
shifted to work-from-home (WFH), and comprehensive maps have helped
visualize how those policies changed over time and in different
places. We recently developed algorithms that infer the onset of WFH
based on changes in observed Internet usage. Measurements of WFH are
important to evaluate how effectively policies are implemented and
followed, or to confirm policies in countries with less transparent
journalism. This paper describes a web-based visualization system for
measurements of Covid-19-induced WFH\@. We build on a web-based world
map, showing a geographic grid of observations about WFH\@. We extend
typical map interaction (zoom and pan, plus animation over time) with
two new forms of pop-up information that allow users to drill-down to
investigate our underlying data. We use sparklines to show changes
over the first 6 months of 2020 for a given location, supporting
identification and navigation to hot spots. Alternatively, users can
report particular networks (Internet Service Providers) that show WFH
on a given day. We show that these tools help us relate our
observations to news reports of Covid-19-induced changes and, in some
cases, lockdowns due to other causes. Our visualization is publicly
available at \url{https://covid.ant.isi.edu}, as is our underlying
data."
,}
The Covid-19 pandemic disrupted the world as businesses and schools shifted to work-from-home (WFH), and comprehensive maps have helped visualize how those policies changed over time and in different places. We recently developed algorithms that infer the onset of WFH based on changes in observed Internet usage. Measurements of WFH are important to evaluate how effectively policies are implemented and followed, or to confirm policies in countries with less transparent journalism. This paper describes a web-based visualization system for measurements of Covid-19-induced WFH\@. We build on a web-based world map, showing a geographic grid of observations about WFH\@. We extend typical map interaction (zoom and pan, plus animation over time) with two new forms of pop-up information that allow users to drill-down to investigate our underlying data. We use sparklines to show changes over the first 6 months of 2020 for a given location, supporting identification and navigation to hot spots. Alternatively, users can report particular networks (Internet Service Providers) that show WFH on a given day. We show that these tools help us relate our observations to news reports of Covid-19-induced changes and, in some cases, lockdowns due to other causes. Our visualization is publicly available at ˘rlhttps://covid.ant.isi.edu, as is our underlying data.
W-TSS: A Wavelet-Based Algorithm for Discovering Time Series Shapelets.
Li, K.; Deng, H.; Morrison, J.; Habre, R.; Franklin, M.; Chiang, Y.; Sward, K.; Gilliland, F. D.; Ambite, J. L.; and Eckel, S. P.
Sensors, 21(17). 2021.
Paper
doi
link
bibtex
abstract
1 download
@Article{s21175801,
AUTHOR = {Li, Kenan and Deng, Huiyu and Morrison, John and Habre, Rima and Franklin, Meredith and Chiang, Yao-Yi and Sward, Katherine and Gilliland, Frank D. and Ambite, José Luis and Eckel, Sandrah P.},
TITLE = {W-TSS: A Wavelet-Based Algorithm for Discovering Time Series Shapelets},
JOURNAL = {Sensors},
VOLUME = {21},
YEAR = {2021},
NUMBER = {17},
ARTICLE-NUMBER = {5801},
URL = {https://www.mdpi.com/1424-8220/21/17/5801},
PubMedID = {34502692},
ISSN = {1424-8220},
ABSTRACT = {Many approaches to time series classification rely on machine learning methods. However, there is growing interest in going beyond black box prediction models to understand discriminatory features of the time series and their associations with outcomes. One promising method is time-series shapelets (TSS), which identifies maximally discriminative subsequences of time series. For example, in environmental health applications TSS could be used to identify short-term patterns in exposure time series (shapelets) associated with adverse health outcomes. Identification of candidate shapelets in TSS is computationally intensive. The original TSS algorithm used exhaustive search. Subsequent algorithms introduced efficiencies by trimming/aggregating the set of candidates or training candidates from initialized values, but these approaches have limitations. In this paper, we introduce Wavelet-TSS (W-TSS) a novel intelligent method for identifying candidate shapelets in TSS using wavelet transformation discovery. We tested W-TSS on two datasets: (1) a synthetic example used in previous TSS studies and (2) a panel study relating exposures from residential air pollution sensors to symptoms in participants with asthma. Compared to previous TSS algorithms, W-TSS was more computationally efficient, more accurate, and was able to discover more discriminative shapelets. W-TSS does not require pre-specification of shapelet length.},
DOI = {10.3390/s21175801}
}
Many approaches to time series classification rely on machine learning methods. However, there is growing interest in going beyond black box prediction models to understand discriminatory features of the time series and their associations with outcomes. One promising method is time-series shapelets (TSS), which identifies maximally discriminative subsequences of time series. For example, in environmental health applications TSS could be used to identify short-term patterns in exposure time series (shapelets) associated with adverse health outcomes. Identification of candidate shapelets in TSS is computationally intensive. The original TSS algorithm used exhaustive search. Subsequent algorithms introduced efficiencies by trimming/aggregating the set of candidates or training candidates from initialized values, but these approaches have limitations. In this paper, we introduce Wavelet-TSS (W-TSS) a novel intelligent method for identifying candidate shapelets in TSS using wavelet transformation discovery. We tested W-TSS on two datasets: (1) a synthetic example used in previous TSS studies and (2) a panel study relating exposures from residential air pollution sensors to symptoms in participants with asthma. Compared to previous TSS algorithms, W-TSS was more computationally efficient, more accurate, and was able to discover more discriminative shapelets. W-TSS does not require pre-specification of shapelet length.
WARP: Word-level Adversarial ReProgramming.
Hambardzumyan, K.; Khachatrian, H.; and May, J.
In
Proceedings of the 59th Annual Meeting of the Association for Computational Linguistics and the 11th International Joint Conference on Natural Language Processing (Volume 1: Long Papers), pages 4921–4933, Online, August 2021. Association for Computational Linguistics
Paper
link
bibtex
abstract
@inproceedings{hambardzumyan-etal-2021-warp,
title = "{WARP}: {W}ord-level {A}dversarial {R}e{P}rogramming",
author = "Hambardzumyan, Karen and
Khachatrian, Hrant and
May, Jonathan",
booktitle = "Proceedings of the 59th Annual Meeting of the Association for Computational Linguistics and the 11th International Joint Conference on Natural Language Processing (Volume 1: Long Papers)",
month = aug,
year = "2021",
address = "Online",
publisher = "Association for Computational Linguistics",
url = "https://aclanthology.org/2021.acl-long.381",
pages = "4921--4933",
abstract = "Transfer learning from pretrained language models recently became the dominant approach for solving many NLP tasks. A common approach to transfer learning for multiple tasks that maximize parameter sharing trains one or more task-specific layers on top of the language model. In this paper, we present an alternative approach based on adversarial reprogramming, which extends earlier work on automatic prompt generation. Adversarial reprogramming attempts to learn task-specific word embeddings that, when concatenated to the input text, instruct the language model to solve the specified task. Using up to 25K trainable parameters per task, this approach outperforms all existing methods with up to 25M trainable parameters on the public leaderboard of the GLUE benchmark. Our method, initialized with task-specific human-readable prompts, also works in a few-shot setting, outperforming GPT-3 on two SuperGLUE tasks with just 32 training samples.",
}
Transfer learning from pretrained language models recently became the dominant approach for solving many NLP tasks. A common approach to transfer learning for multiple tasks that maximize parameter sharing trains one or more task-specific layers on top of the language model. In this paper, we present an alternative approach based on adversarial reprogramming, which extends earlier work on automatic prompt generation. Adversarial reprogramming attempts to learn task-specific word embeddings that, when concatenated to the input text, instruct the language model to solve the specified task. Using up to 25K trainable parameters per task, this approach outperforms all existing methods with up to 25M trainable parameters on the public leaderboard of the GLUE benchmark. Our method, initialized with task-specific human-readable prompts, also works in a few-shot setting, outperforming GPT-3 on two SuperGLUE tasks with just 32 training samples.
Waveguide crossings having arms shaped with a non-linear curvature.
Jacob, A. P.; Bian, Y.; Chandran, S.; and Dahlem, M.
April~27 2021.
US Patent 10,989,873
link
bibtex
@misc{jacob2021waveguide,
title={Waveguide crossings having arms shaped with a non-linear curvature},
author={Jacob, Ajey Poovannummoottil and Bian, Yusheng and Chandran, Sujith and Dahlem, Marcus},
year={2021},
month=apr # "~27",
publisher={Google Patents},
note={US Patent 10,989,873}
}
Well-poised hypersurfaces.
Cecil, J.; Dutta, N.; Manon, C.; Riley, B.; and Vichitbandha, A.
Communications in Algebra, 49: 2645 - 2654. feb 2021.
link
link
bibtex
@article{Cecil2020WellpoisedH,
title={Well-poised hypersurfaces},
author={Joseph Cecil and Neelav Dutta and Christopher Manon and Benjamin Riley and Angela Vichitbandha},
journal={Communications in Algebra},
year={2021},
month={feb},
volume={49},
pages={2645 - 2654},
url_Link={https://www.tandfonline.com/doi/full/10.1080/00927872.2021.1879828},
ISIArea = {OTH}
}
WfChef: Automated Generation of Accurate Scientific Workflow Generators.
Coleman, T.; Casanova, H.; and Ferreira da Silva, R.
In
17th IEEE eScience Conference, 2021.
Funding Acknowledgments: NSF 1923539, NSF 2016619
link
bibtex
@InProceedings{ coleman2021escience,
Author = {Coleman, Tain\=a and Casanova, Henri and Ferreira da
Silva, Rafael},
Title = {WfChef: Automated Generation of Accurate Scientific
Workflow Generators},
BookTitle = {17th IEEE eScience Conference},
Year = {2021},
Pages = {},
DOI = {},
Note = {Funding Acknowledgments: NSF 1923539, NSF 2016619}
}
What Is The Internet? (Considering Partial Connectivity).
Baltra, G.; and Heidemann, J.
Technical Report arXiv:2107.11439v2, USC/Information Sciences Institute, May 2021.
Paper
doi
link
bibtex
abstract
@techreport{Baltra21a,
author = "Guillermo Baltra and John Heidemann",
title = "What Is The Internet? (Considering Partial Connectivity)",
institution = "USC/Information Sciences Institute",
year = 2021,
sortdate = "2021-07-23",
project = "ant, eieio, minceq",
jsubject = "routing",
notes = "released 2021-07-23, updated 2022-05-24",
number = "arXiv:2107.11439v2",
month = may,
jlocation = "johnh: pafile",
keywords = "trinocular, outages, partial outages",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Baltra21a.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Baltra21a.pdf",
doi = "https://doi.org/10.48550/2107.11439v2",
myorganization = "USC/Information Sciences Institute",
copyrightholder = "authors",
abstract = "
The Internet was originally defined as ``a collection of
interconnected networks''. While this definition helps us understand
what the Internet is, it is silent on when the Internet \emph{is not}.
We provide a \emph{testable} definition of the Internet to clarify
where the Internet ``ends'': disconnection when a country or an ISP
secedes; persistent partial connectivity when major ISPs refuse to
exchange traffic, isolating their customers; clarifying corner cases
around carrier-grade NAT, unrouted public IP addresses, and
interpreting conflicting observations from systems that detect
Internet outages. Our definition identifies \emph{peninsulas} of
persistent, partial connectivity, and clarifies that outages are
\emph{islands}, with internal connectivity that is partitioned from
the main Internet. Our definition is conceptual, defining an ideal
asymptote of connectivity, but it enables new algorithms that provide
an operational estimate of the number of size of peninsulas and
islands. We use these algorithms reinterpret data from two existing
measurement systems, one covering 5 million /24 IPv4 networks and the
other with 10k observers. A key result is that peninsulas are about
as common as outages, newly clarifying the importance of this
long-observed problem. We examine root causes, showing that most
peninsula events (45\%) are transient routing problems, but a few
long-lived peninsulas events (7\%) account for 90\% of all peninsula
time, suggesting country- or AS-level policy choices that last weeks
or more. Finally, our definition confirms the international nature of
internet: no single country can unilaterally claim to be ``the
Internet'', but countries can chose to leave. With islands and
peninsulas, our definition helps clarify the spectrum from partial
reachability to outages in prior work.
",
}
The Internet was originally defined as ``a collection of interconnected networks''. While this definition helps us understand what the Internet is, it is silent on when the Internet \emphis not. We provide a \emphtestable definition of the Internet to clarify where the Internet ``ends'': disconnection when a country or an ISP secedes; persistent partial connectivity when major ISPs refuse to exchange traffic, isolating their customers; clarifying corner cases around carrier-grade NAT, unrouted public IP addresses, and interpreting conflicting observations from systems that detect Internet outages. Our definition identifies \emphpeninsulas of persistent, partial connectivity, and clarifies that outages are \emphislands, with internal connectivity that is partitioned from the main Internet. Our definition is conceptual, defining an ideal asymptote of connectivity, but it enables new algorithms that provide an operational estimate of the number of size of peninsulas and islands. We use these algorithms reinterpret data from two existing measurement systems, one covering 5 million /24 IPv4 networks and the other with 10k observers. A key result is that peninsulas are about as common as outages, newly clarifying the importance of this long-observed problem. We examine root causes, showing that most peninsula events (45%) are transient routing problems, but a few long-lived peninsulas events (7%) account for 90% of all peninsula time, suggesting country- or AS-level policy choices that last weeks or more. Finally, our definition confirms the international nature of internet: no single country can unilaterally claim to be ``the Internet'', but countries can chose to leave. With islands and peninsulas, our definition helps clarify the spectrum from partial reachability to outages in prior work.
Will AI Write Scientific Papers in the Future?.
Gil, Y.
AI Mag., 42(4): 3–15. 2021.
Paper
doi
link
bibtex
31 downloads
@article{DBLP:journals/aim/Gil21,
author = {Yolanda Gil},
title = {Will {AI} Write Scientific Papers in the Future?},
journal = {{AI} Mag.},
volume = {42},
number = {4},
pages = {3--15},
year = {2021},
url = {https://doi.org/10.1609/aimag.v42i4.18149},
doi = {10.1609/AIMAG.V42I4.18149},
timestamp = {Thu, 24 Feb 2022 00:00:00 +0100},
biburl = {https://dblp.org/rec/journals/aim/Gil21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Woolery: Extending Frame Semantics to Structured Documents.
Eggleston, C.; and Abramson, J.
In Chen, Y.; Ludwig, H.; Tu, Y.; Fayyad, U. M.; Zhu, X.; Hu, X.; Byna, S.; Liu, X.; Zhang, J.; Pan, S.; Papalexakis, V.; Wang, J.; Cuzzocrea, A.; and Ordonez, C., editor(s),
2021 IEEE International Conference on Big Data (Big Data), Orlando, FL, USA, December 15-18, 2021, pages 5597–5601, 2021. IEEE
Paper
doi
link
bibtex
@inproceedings{DBLP:conf/bigdataconf/EgglestonA21,
title = {Woolery: Extending Frame Semantics to Structured Documents},
author = {Chloe Eggleston and Jeremy Abramson},
year = 2021,
booktitle = {2021 {IEEE} International Conference on Big Data (Big Data), Orlando, FL, USA, December 15-18, 2021},
publisher = {{IEEE}},
pages = {5597--5601},
doi = {10.1109/BIGDATA52589.2021.9671788},
url = {https://doi.org/10.1109/BigData52589.2021.9671788},
editor = {Yixin Chen and Heiko Ludwig and Yicheng Tu and Usama M. Fayyad and Xingquan Zhu and Xiaohua Hu and Suren Byna and Xiong Liu and Jianping Zhang and Shirui Pan and Vagelis Papalexakis and Jianwu Wang and Alfredo Cuzzocrea and Carlos Ordonez},
timestamp = {Fri, 13 Jan 2023 17:06:49 +0100},
biburl = {https://dblp.org/rec/conf/bigdataconf/EgglestonA21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Woolery: Toward Semantic Annotation of Structured Documents with FrameNet.
Eggleston, C.; and Abramson, J.
In
IEEE 18th International Conference on Mobile Ad Hoc and Smart Systems, MASS 2021, Denver, CO, USA, October 4-7, 2021, pages 659–660, 2021. IEEE
Paper
doi
link
bibtex
@inproceedings{DBLP:conf/mass/EgglestonA21,
title = {Woolery: Toward Semantic Annotation of Structured Documents with FrameNet},
author = {Chloe Eggleston and Jeremy Abramson},
year = 2021,
booktitle = {{IEEE} 18th International Conference on Mobile Ad Hoc and Smart Systems, {MASS} 2021, Denver, CO, USA, October 4-7, 2021},
publisher = {{IEEE}},
pages = {659--660},
doi = {10.1109/MASS52906.2021.00096},
url = {https://doi.org/10.1109/MASS52906.2021.00096},
timestamp = {Mon, 20 Dec 2021 09:38:37 +0100},
biburl = {https://dblp.org/rec/conf/mass/EgglestonA21.bib},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
Workflows Community Summit: Advancing the State-of-the-art of Scientific Workflows Management Systems Research and Development.
Ferreira da Silva, R.; Casanova, H.; Chard, K.; Coleman, T.; Laney, D.; Ahn, D.; Jha, S.; Howell, D.; Soiland-Reys, S.; Altintas, I.; Thain, D.; Filgueira, R.; Babuji, Y.; Badia, R. M.; Balis, B.; Caino-Lores, S.; Callaghan, S.; Coppens, F.; Crusoe, M. R.; De, K.; Di Natale, F.; Do, T. M. A.; Enders, B.; Fahringer, T.; Fouilloux, A.; Fursin, G.; Gaignard, A.; Ganose, A.; Garijo, D.; Gesing, S.; Goble, C.; Hasan, A.; Huber, S.; Katz, D. S.; Leser, U.; Lowe, D.; Ludaescher, B.; Maheshwari, K.; Malawski, M.; Mayani, R.; Mehta, K.; Merzky, A.; Munson, T.; Ozik, J.; Pottier, L.; Ristov, S.; Roozmeh, M.; Souza, R.; Suter, F.; Tovar, B.; Turilli, M.; Vahi, K.; Vidal-Torreira, A.; Whitcup, W.; Wilde, M.; Williams, A.; Wolf, M.; and Wozniak, J.
June 2021.
doi
link
bibtex
@Misc{ wcs2021technical,
Author = {Ferreira da Silva, Rafael and Casanova, Henri and Chard,
Kyle and Coleman, Tain\={a} and Laney, Dan and Ahn, Dong
and Jha, Shantenu and Howell, Dorran and Soiland-Reys,
Stian and Altintas, Ilkay and Thain, Douglas and Filgueira,
Rosa and Babuji, Yadu and Badia, Rosa M. and Balis, Bartosz
and Caino-Lores, Silvina and Callaghan, Scott and Coppens,
Frederik and Crusoe, Michael R. and De, Kaushik and Di
Natale, Frank and Do, Tu M. A. and Enders, Bjoern and
Fahringer, Thomas and Fouilloux, Anne and Fursin, Grigori
and Gaignard, Alban and Ganose, Alex and Garijo, Daniel and
Gesing, Sandra and Goble, Carole and Hasan, Adil and Huber,
Sebastiaan and Katz, Daniel S. and Leser, Ulf and Lowe,
Douglas and Ludaescher, Bertram and Maheshwari, Ketan and
Malawski, Maciej and Mayani, Rajiv and Mehta, Kshitij and
Merzky, Andre and Munson, Todd and Ozik, Jonathan and
Pottier, Lo\"{i}c and Ristov, Sashko and Roozmeh, Mehdi and
Souza, Renan and Suter, Fr\'ed\'eric and Tovar, Benjamin
and Turilli, Matteo and Vahi, Karan and Vidal-Torreira,
Alvaro and Whitcup, Wendy and Wilde, Michael and Williams,
Alan and Wolf, Matthew and Wozniak, Justin},
Title = {{Workflows Community Summit: Advancing the
State-of-the-art of Scientific Workflows Management Systems
Research and Development}},
Month = {June},
Year = {2021},
Publisher = {Zenodo},
DOI = {10.5281/zenodo.4915801}
}
Workshop on Overcoming Measurement Barriers to Internet Research (WOMBIR 2021) Final Report.
kc claffy ; Clark, D.; Bustamante, F. E.; Heidemann, J.; Jonker, M.; Schulman, A.; and Zegura, E.
ACM Computer Communication Review, 51(3). July 2021.
Paper
link
bibtex
abstract
@Article{Claffy21a,
author = "kc claffy and David Clark and Fabi{\'a}n
E. Bustamante and John Heidemann and Mattijs Jonker
and Aaron Schulman and Ellen Zegura",
title = "Workshop on Overcoming Measurement Barriers
to {Internet} Research ({WOMBIR} 2021) Final Report",
journal = "ACM Computer Communication Review",
year = 2021,
sortdate = "2021-07-16",
project = "ant, wombir",
jsubject = "topology_modeling",
volume = 51,
number = 3,
xpages = "xxx",
month = jul,
jlocation = "johnh: pafile",
keywords = "network measurement, wireless, broadband
access, economics",
xxxdoi = "tbd",
otherurl = "https://www.caida.org/catalog/papers/2021_wombir2021_report/wombir2021_report.pdf",
url = "https://ant.isi.edu/%7ejohnh/PAPERS/Claffy21a.html",
pdfurl = "https://ant.isi.edu/%7ejohnh/PAPERS/Claffy21a.pdf",
blogurl = "https://ant.isi.edu/blog/?p=1770",
myorganization = "USC/Information Sciences Institute",
copyrightholder = "authors",
abstract = "In January and April 2021 we held the Workshop on Overcoming
Measurement Barriers to Internet Research (WOMBIR) with the goal of
understanding challenges in network and security data set collection
and sharing. Most workshop attendees provided white papers describing
their perspectives, and many participated in short-talks and
discussion in two virtual workshops over five days. That discussion
produced consensus around several points. First, many aspects of the
Internet are characterized by decreasing visibility of important
network properties, which is in tension with the Internet's role as
critical infrastructure. We discussed three specific research areas
that illustrate this tension: security, Internet access; and mobile
networking. We discussed visibility challenges at all layers of the
networking stack, and the challenge of gathering data and validating
inferences. Important data sets require longitudinal (long-term,
ongoing) data collection and sharing, support for which is more
challenging for Internet research than other fields. We discussed why
a combination of technical and policy methods are necessary to
safeguard privacy when using or sharing measurement data. Workshop
participant proposed several opportunities to accelerate progress,
some of which require coordination across government, industry, and
academia."
,}
% shoudl be {\'I}, but that breaks jekyll-scholar
In January and April 2021 we held the Workshop on Overcoming Measurement Barriers to Internet Research (WOMBIR) with the goal of understanding challenges in network and security data set collection and sharing. Most workshop attendees provided white papers describing their perspectives, and many participated in short-talks and discussion in two virtual workshops over five days. That discussion produced consensus around several points. First, many aspects of the Internet are characterized by decreasing visibility of important network properties, which is in tension with the Internet's role as critical infrastructure. We discussed three specific research areas that illustrate this tension: security, Internet access; and mobile networking. We discussed visibility challenges at all layers of the networking stack, and the challenge of gathering data and validating inferences. Important data sets require longitudinal (long-term, ongoing) data collection and sharing, support for which is more challenging for Internet research than other fields. We discussed why a combination of technical and policy methods are necessary to safeguard privacy when using or sharing measurement data. Workshop participant proposed several opportunities to accelerate progress, some of which require coordination across government, industry, and academia.
You are where you eat: Effect of mobile food environments on fast food visits.
Bernardo Garcia-Bulle, A. L. H.; Brooke M. Bell, M. B.; Burcin Bozkaya, A. P.; and Kayla de la Haye, E. M.
medRxiv. 2021.
doi
link
bibtex
@article{horn2022fastfoodmobility,
title={You are where you eat: Effect of mobile food environments on fast food visits},
author = {Bernardo Garcia-Bulle, Abigail L. Horn, Brooke M. Bell, Mohsen Bahrami, Burcin Bozkaya, Alex Pentland, Kayla de la Haye, Esteban Moro},
journal={medRxiv},
year={2021},
doi = {10.1101/2021.10.28.21265634},
publisher={Cold Spring Harbor Laboratory Press}
}
Zero-shot Synthesis with Group-Supervised Learning.
Ge, Y.; Abu-El-Haija, S.; Xin, G.; and Itti, L.
In
International Conference on Learning Representations, 2021.
link
bibtex
@inproceedings{ge2021gsl,
title={Zero-shot Synthesis with Group-Supervised Learning},
author={Yunhao Ge and Sami Abu-El-Haija and Gan Xin and Laurent Itti},
booktitle={International Conference on Learning Representations},
year={2021},
}
Zero-shot image classification using coupled dictionary embedding.
Rostami, M.; Kolouri, S.; Murez, Z.; Owekcho, Y.; Eaton, E.; and Kim, K.
Journal of Machine Learning with Applications. 2021.
link
bibtex
@article{rostami2021zero,
title={Zero-shot image classification using coupled dictionary embedding},
author={Rostami, Mohammad and Kolouri, Soheil and Murez, Zak and Owekcho, Yuri and Eaton, Eric and Kim, Kuyngnam},
journal={Journal of Machine Learning with Applications},
year={2021}
}
geoChronR – an R package to model, analyze, and visualize age-uncertain data.
McKay, N.; Emile-Geay, J.; and Khider, D.
Geochronology, 3(1): 149–169. March 2021.
doi
link
bibtex
1 download
@article{mckay_geochronr_2021,
title = {{geoChronR} – an {R} package to model, analyze, and visualize age-uncertain data},
volume = {3},
doi = {10.5194/gchron-3-149-2021},
number = {1},
journal = {Geochronology},
author = {McKay, Nicholas and Emile-Geay, Julien and Khider, Deborah},
month = mar,
year = {2021},
keywords = {GeoChronR},
pages = {149--169},
}
q-Paths: Generalizing the geometric annealing path using power means.
Masrani, V.; Brekelmans, R.; Bui, T.; Nielsen, F.; Galstyan, A.; Ver Steeg, G.; and Wood, F.
In
Uncertainty in Artificial Intelligence, pages 1938–1947, 2021. PMLR
link
bibtex
@inproceedings{masrani2021q,
title={q-Paths: Generalizing the geometric annealing path using power means},
author={Masrani, Vaden and Brekelmans, Rob and Bui, Thang and Nielsen, Frank and Galstyan, Aram and Ver Steeg, Greg and Wood, Frank},
booktitle={Uncertainty in Artificial Intelligence},
pages={1938--1947},
year={2021},
organization={PMLR}
}
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