Title :
Obstacle Avoidance Policies for Cluster Space Control of Nonholonomic Multirobot Systems
Author :
Mas, Ignacio ; Kitts, Christopher
Author_Institution :
Robotic Syst. Lab., Santa Clara Univ., Santa Clara, CA, USA
Abstract :
The cluster space control technique promotes simplified specification and monitoring of the motion of mobile multirobot systems of limited size. In this publication, we summarize the definition of the cluster space framework and introduce a multirobot cluster space controller specific for unicycle-like nonholonomic mobile robots. The controller produces cluster commands that translate into valid robot-level motions. We then study the closed-loop system stability in the Lyapunov sense. Two different obstacle avoidance algorithms are proposed and the stability of the resulting systems is also addressed. Experimental tests with a three-robot system and simulation results with a ten-robot system verify the functionality of the proposed approaches.
Keywords :
Lyapunov methods; closed loop systems; collision avoidance; mobile robots; motion control; multi-robot systems; stability; Lyapunov sense; closed-loop system stability; cluster command; cluster space framework; mobile multirobot systems; motion monitoring; multirobot cluster space controller; nonholonomic multirobot system; obstacle avoidance policy; robot-level motion; simplified specification; ten-robot system; three-robot system; unicycle-like nonholonomic mobile robot; Aerospace electronics; Collision avoidance; Mobile robots; Multirobot systems; Robot control; Robot kinematics; Robot sensing systems; Collision avoidance; mobile robots; multirobot systems; robot control;
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/TMECH.2011.2159988
