Global path planning of redundant manipulators based on self-motion topology

C.L Luck,Sukhan Lee Sukhan Lee

doi:10.1109/robot.1994.351267

Global path planning of redundant manipulators based on self-motion topology

C.L Luck, Sukhan Lee Sukhan Lee

https://doi.org/10.1109/robot.1994.351267

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Publication Date: May 8, 1994

Citations: 17

Affiliation: University of Southern California, Jet Propulsion Laboratory

#Path Planning For Redundant Manipulators #Presence Of Kinematic Constraints + Show 8 more

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Abstract

This paper explores the intrinsic self-motion manifold topology structure in the presence of kinematic constraints. The objective is to design an algorithms structure to address redundancy resolution and path planning for redundant manipulators in the global sense. The proposed top-down algorithm structure provides a global view of the search space with the help of a connectivity graph in the top layer where path options are obtained for further exploration in the lower layers. A 3-DOF planar manipulator is used to illustrate the methodology and a real application is based on the AAI Arm. >

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