OTHER
Computing the Configuration Space for a Robot on a Mesh-of-Processors.
Frank Dehne, Anne-Lise Hassenklover, Jörg-Rüdiger Sack
- Year
- 1989
- Citations
- 4
Abstract
In this paper, we present a systolic algorithm for computing the configuration space of an arrangement of arbitrary obstacles in the plane for a rectilinearly convex robot. The obstacles and the robot are assumed to be represented in digitized form by a √n × √n nibary image. The algorithm is designed for a Mesh-of-Processors architecture with n processors (using the canonical representation of an image on a processor array) and has an execution time of O(√n) which is asymptotically optimal.
Keywords
RobotComputer scienceRepresentation (politics)Regular polygonSpace (punctuation)Plane (geometry)Image (mathematics)Robot kinematicsConfiguration spaceComputer vision
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