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MANIPULATION

Determining the collision-free joint space graph for two cooperating robot manipulators

Qifan Xue, Anthony A. Maciejewski, Phillip C.‐Y. Sheu

Year
1993
Citations
11

Abstract

The problem of path planning for two planar robot manipulators that cooperate in carrying a rectangular object from an initial position and orientation to a destination position and orientation in a 2-D environment is investigated. The two robot arms, the carried object, and the straight line connecting the two robot bases are modeled as a 6-link closed chain. The problem of path planning for the chain is solved by two major algorithms: a collision-free feasible-configuration-finding algorithm and a collision-free path-finding algorithm. The former maps the free space in the Cartesian world space to the robot's joint space in which all the collision-free feasible configuratiions (CFFCs) for the 6-link closed chain are found. The latter builds a connection graph representing the CFFCs and the transitions between any two groups of CFFCs at adjacent joint intervals. A graph search method is employed to find a collision-free path for each joint of both manipulators.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">&gt;</ETX>

Keywords

Path (computing)Cartesian coordinate systemRobotOrientation (vector space)GraphCollisionComputer sciencePosition (finance)Motion planningObject (grammar)

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