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Randomized motion planning on parallel and distributed architectures

Stefano Caselli, Monica Reggiani

Year
1999
Citations
13

Abstract

Motion planning is a fundamental problem in a number of application areas, including robotics, automation, and virtual reality. This paper describes a parallel implementation of a motion planning algorithm particularly suited for complex systems characterized by many degrees of freedom. The implementation is based on the concurrent exploration of the search space by a randomized planner replicated on each node of the parallel architecture. All processing elements compete to obtain a solution over the entire search space in an OR-parallel fashion. Reported results refer to a low-cost cluster of PCs and an SGI Onyx2 parallel machine. The experiments emphasise the effectiveness of the approach for complex, high-dimensionality planning problems, We believe that the approach may be useful in other complex search problems, especially when the parallel architecture exhibits relatively high communication latency.

Keywords

Computer scienceMotion planningRoboticsDistributed computingAutomationArtificial intelligenceArchitectureRobotEngineering

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