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MANIPULATION

Omnidirectional Walking Mechanism. (Redundancy and Trajectory Control).

Toshio Fukuda, Yuji Adachi, Haruo Hoshino, Eiji Muro, Kentarou Kurashige

Year
1997
Citations
5
Access
Open access

Abstract

This paper deals with a multiple mobile working robot, which has a six-legged locomotion function and a vertically articulated manipulator. The walking mechanism consists of a parallel link mechanism connecting two frames with three linear actuators and six extendable legs fixed to the frames. The manipulation function has 4 degrees of freedom and locomotion function has 6 degrees of freedom, thus this working robot is a redundant mechanism with 10 degrees of freedom. We propose a trajectory following control method by switching the normalizing matrix according to the freedom. The simulation results and the experimental results leads to the availability of the method.

Keywords

Mechanism (biology)Redundancy (engineering)Control theory (sociology)Degrees of freedom (physics and chemistry)Computer scienceTrajectoryActuatorRobotControl engineeringControl (management)

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