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Event Detail Information

Event Detail Information

ISE Seminar-Robust Issues in Distributed Formation Control

Speaker A. Stephen Morse, Yale University
Date Apr 11, 2013
Time 4:00 pm  
Location 303 Transportation Building
Sponsor ISE
Contact Holly M. Kizer
Phone 217-333-2346
Event type Other Seminar
Views 720
Originating Calendar ISE Seminar Calendar

Abstract

By an undirected rigid formation of mobile autonomous agents is meant a formation based on “graph rigidity" in which each pair of “neighboring" agents i and j is responsible for maintaining the prescribed distance dij between them. Recent research by several different groups has led to the development of an elegant potential function based theory of formation control which provides gradient laws for asymptotically stabilizing a large class of rigid, undirected formations in two-dimensional space assuming all agents are described by kinematic point models. This particular methodology is perhaps the most comprehensive currently in existence for maintaining undirected formations based on graph rigidity. The aim of this talk is to explain what happens if neighboring agents i and j using such gradient controls have slightly different understandings of what the desired distance dij between them is suppose to be. The question is relevant because no two positioning controls can be expected to move agents to precisely specified positions because of inevitable imprecision in the physical comparators used to compute the positioning errors. The question is also relevant because it is mathematically equivalent to determining what happens if neighboring agents have differing estimates of what the actual distance between them is. In either case, what one would hope for would be a gradual distortion of the formation from its target shape as discrepancies in desired or sensed distances increase. While this is observed for the gradient laws in question, something else quite unexpected happens at the same time. The aim of this talk is to describe what occurs and to explain why.

The robustness issues raised here have broader implications extending well beyond formation maintenance to the entire field of distributed control. In particular, this research illustrates that when assessing the efficacy of a particular distributed control, one must consider the consequences of distinct agents having slightly different understandings of what the values of shared data between them is suppose to be. For without the protection of exponential stability/convergence, it is likely that such discrepancies will cause significant misbehavior to occur.

Biography

A. Stephen Morse was born in Mt. Vernon, New York. He received a BSEE degree from Cornell University, MS degree from the University of Arizona, and a Ph.D. degree from Purdue University. From 1967 to 1970 he was associated with the Office of Control Theory and Application {OCTA} at the NASA Electronics Research Center in Cambridge, Mass. Since 1970 he has been with Yale University where he is presently the Dudley Professor of Engineering. His main interest is in system theory and he has done research in network synthesis, optimal control, multivariable control, adaptive control, urban transportation, vision-based control, hybrid and nonlinear systems, sensor networks, and coordination and control of large grouping of mobile autonomous agents.