We propose algorithms to automatically deploy a group of mobile robots to provide coverage of a non-convex environment with communication limitations. In settings such as hilly terrain or for underwater ocean gliders, peer-to-peer communication can be impossible and frequent communication to a central base station may be impractical. This paper instead explores how to perform coverage control when each robot has only asynchronous and sporadic communication with a base station or, alternatively, with the rest of the team. Our approach evolves overlapping territories and provably converges to a centroidal Voronoi partition at equilibrium. We also describe how the use of overlapping territories allows our algorithm to smoothly handle dynamic changes to the robot team.
Dynamic partitioning and coverage control with asynchronous one-to-base-station communication
CARLI, RUGGERO;
2011
Abstract
We propose algorithms to automatically deploy a group of mobile robots to provide coverage of a non-convex environment with communication limitations. In settings such as hilly terrain or for underwater ocean gliders, peer-to-peer communication can be impossible and frequent communication to a central base station may be impractical. This paper instead explores how to perform coverage control when each robot has only asynchronous and sporadic communication with a base station or, alternatively, with the rest of the team. Our approach evolves overlapping territories and provably converges to a centroidal Voronoi partition at equilibrium. We also describe how the use of overlapping territories allows our algorithm to smoothly handle dynamic changes to the robot team.
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