Hormone-Inspired Adaptive Communication and Distributed Control for CONRO Self-Reconfigurable Robots
Wei-Min Shen, Behnam Salemi, and Peter Will. Hormone-Inspired Adaptive Communication and Distributed Control for CONRO Self-Reconfigurable Robots. IEEE Trans. on Robotics and Automation, 18(5):700–712, October 2002.
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Abstract
Presents a biologically inspired approach to two basic problems in modular self-reconfigurable robots: adaptive communication in self-reconfigurable and dynamic networks, and distributed collaboration between the physically coupled modules to accomplish global effects such as locomotion and reconfiguration. Inspired by the biological concept of hormone, the paper develops the adaptive communication (AC) protocol that enables modules continuously to discover changes in their local topology, and the adaptive distributed control (ADC) protocol that allows modules to use hormone-like messages in collaborating their actions to accomplish locomotion and self-reconfiguration. These protocols are implemented and evaluated, and experiments in the CONRO self-reconfigurable robot and in a Newtonian simulation environment have shown that the protocols are robust and scaleable when configurations change dynamically and unexpectedly, and they can support online reconfiguration, module-level behavior shifting, and locomotion. The paper also discusses the implication of the hormone-inspired approach for distributed multiple robots and self-reconfigurable systems in general.
BibTeX Entry
@Article{ shen2002hormone-inspired-adaptive-communication-and-distributed,
abstract = {Presents a biologically inspired approach to two basic
problems in modular self-reconfigurable robots: adaptive
communication in self-reconfigurable and dynamic networks,
and distributed collaboration between the physically
coupled modules to accomplish global effects such as
locomotion and reconfiguration. Inspired by the biological
concept of hormone, the paper develops the adaptive
communication (AC) protocol that enables modules
continuously to discover changes in their local topology,
and the adaptive distributed control (ADC) protocol that
allows modules to use hormone-like messages in
collaborating their actions to accomplish locomotion and
self-reconfiguration. These protocols are implemented and
evaluated, and experiments in the CONRO self-reconfigurable
robot and in a Newtonian simulation environment have shown
that the protocols are robust and scaleable when
configurations change dynamically and unexpectedly, and
they can support online reconfiguration, module-level
behavior shifting, and locomotion. The paper also discusses
the implication of the hormone-inspired approach for
distributed multiple robots and self-reconfigurable systems
in general.},
author = {Wei-Min Shen and Behnam Salemi and Peter Will},
journal = tra,
month = oct,
number = {5},
pages = {700--712},
title = {Hormone-Inspired Adaptive Communication and Distributed
Control for {CONRO} Self-Reconfigurable Robots},
volume = {18},
year = {2002}
}
