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MANIPULATION

Spiral Motion of Nonholonomic Space Robots.

Takahiro Suzuki, Yoshihiko Nakamura

Year
1995
Citations
2
Access
Open access

Abstract

A free-flying space robot with a 6-DOF manipulator cannot follow an arbitrary trajectory in the 9D generalized coordinates (3 of the satellite attitude and 6 of the manipulator joints) with only manipulator joint control, though it was shown to be commonly controllable in the literature. In this paper, we propose a method to approximate an arbitrary 9D path by introducing a perturbation around the specified path. We call thus approximated trajectory a “spiral motion”. A computational scheme for the optimal spiral motion is presented, and is followed by computer simulation. Relationship of singular points and computational convergency is also discussed.

Keywords

Nonholonomic systemSpiral (railway)TrajectoryControl theory (sociology)Perturbation (astronomy)Singular perturbationPath (computing)RobotMotion (physics)Computer science

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