Nonsmooth Barrier Functions With Applications to Multi-Robot Systems

As multi-agent systems become more wide-spread and versatile, the ability to satisfy multiple system-level constraints grows increasingly important. In applications ranging from automated cruise control to safety in robot swarms, barrier functions have emerged as a tool to provably meet such constra...

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Bibliographic Details
Published inIEEE control systems letters Vol. 1; no. 2; pp. 310 - 315
Main Authors Glotfelter, Paul, Cortes, Jorge, Egerstedt, Magnus
Format Journal Article
LanguageEnglish
Published IEEE 01.10.2017
Subjects
autonomous systems
Collision avoidance
Differential equations
Lyapunov methods
Multi-agent systems
Robotics
Robots
Robustness
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Summary:As multi-agent systems become more wide-spread and versatile, the ability to satisfy multiple system-level constraints grows increasingly important. In applications ranging from automated cruise control to safety in robot swarms, barrier functions have emerged as a tool to provably meet such constraints by guaranteeing forward invariance of desirable sets. However, satisfying multiple constraints typically implies formulating multiple barrier functions, which would be ameliorated if the barrier functions could be composed together as Boolean logic formulas. The use of max and min operators, which yields nonsmooth functions, represents one path to accomplish Boolean compositions of barrier functions, and this letter extends previously established concepts for barrier functions to a class of nonsmooth barrier functions that operate on systems described by differential inclusions. We validate our results by deploying Boolean compositions of nonsmooth barrier functions onto a team of mobile robots.
ISSN:2475-1456
2475-1456
DOI:10.1109/LCSYS.2017.2710943