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Finding an unpredictable target in a workspace with obstacles

Steven M. LaValle, David C. Lin, Leonidas Guibas, J.-C. Latombe, R. Motwani

Year
2002
Citations
149

Abstract

This paper introduces a visibility-based motion planning problem in which the task is to coordinate the motions of one or more robots that have omnidirectional vision sensors, to eventually "see" a target that is unpredictable, has unknown initial position, and is capable of moving arbitrarily feast. A visibility region is associated with each robot, and the goal is to guarantee that the target will ultimately lie in at least one visibility region. Both a formal characterization of the general problem and several interesting problem instances are presented. A complete algorithm for computing the motion strategy of the robots is also presented, and is based on searching a finite cell complex that is constructed on the basis of critical information changes. A few computed solution strategies are shown. Several bounds on the minimum number of needed robots are also discussed.

Keywords

VisibilityWorkspaceRobotComputer scienceMotion planningTask (project management)Position (finance)Computer visionVisibility graphMotion (physics)

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