Name: Sustainable, Scalable and Reliable Architectures for Massive MIMO and mmWave Connectivity and Sensing
Start: 2026-04-10T05:00:00-07:00
End: 2026-04-10T06:00:00-07:00
Location: Online event

CA DREAMS - Technical Seminar Series

Sustainable, Scalable and Reliable Architectures for Massive MIMO and mmWave Connectivity and Sensing

When

Friday, April 10, 2026 12:00pm - 1:00pm PDT

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Presenter

Presented by:

Professor Dinesh Bharadia, UCSD

Virtual URL

Online Link

This event is open to:

Everyone

Event Details

April 10, 2026

Join Zoom Webinar

https://usc.zoom.us/j/91332239377?pwd=Cln8k0OGSSzK3zkW0A8tTRXHk6EszT.1

Passcode: 862998

Host: Steve Crago
POC: Amy Kasmir

The journey of wireless communication has transformed our world, evolving from simple voice calls in 1G to the immersive experiences and massive machine-type communication envisioned for NextG. However, this progress brings critical challenges: sub-6 GHz systems struggle with energy efficiency and sustainability, while mmWave networks face reliability issues and scalability constraints when serving large numbers of clients. This talk introduces solutions to these challenges, paving the way for a more sustainable and reliable future wireless. I will present GreenMO and PhaseMO, innovative approaches that leverage hardware virtualization to dramatically reduce power consumption in Massive MIMO systems, making them more energy-efficient. Additionally, I will present mmReliable and mmFlexible, transformative strategies that enhance mmWave network scalability and reliability by employing multi-directional beamforming to enable multi-user and overcome blockages and ensure consistent connectivity. Together, these advancements redefine the possibilities for NextG wireless systems. Finally, I will share insights into ongoing research at WCSNG UCSD aimed at creating NextG software driven wireless networks that can sustain the ever-growing demands of modern communication networks.

Speaker Bio

Dinesh Bharadia is an Associate Professor in the Electrical and Computer Engineering Department and Klein Gilhousen Chancellor’s Endowed Chair at the University of California San Diego (UCSD), where he leads the Wireless Communication Sensing and Networking Group (WCSNG). He earned his Ph.D. from Stanford University in 2016, followed by a Postdoctoral Associate position at MIT. In 2018, he joined UCSD as an Assistant Professor and was promoted to a tenured position in 2022. His research focuses on designing and prototyping advanced systems for wireless communication, sensing, and networking, with applications spanning privacy, security, robotics, health, and everyday life. His work has driven new research directions across fields such as communication theory, RFIC design, and robotics. Many of his innovations have been successfully translated into startups and commercial products, including Haila, Kumu Networks, and Totemic Labs. Under his leadership, the WCSNG group has secured over $15 million in funding over the past five years from sources such as NSF, industry partners, and DoD grants. This funding supports a vibrant team of more than 40 students including undergrads, masters at any given time, helping train the next generation of engineers and scientists. He has received numerous prestigious accolades for his contributions to wireless research, including being named to Forbes 30 Under 30 (Science) and MIT Technology Review’s Innovators Under 35 list, Distinguished Young Alumnus Award from Indian Institute of Technology Kanpur.

This program is open to all eligible individuals. Information Sciences Institute operates all of its programs and activities consistent with the University’s Notice of Non-Discrimination. Eligibility is not determined based on race, sex, ethnicity, sexual orientation, or any other prohibited factor.