Optimal Configuration Problem of Redundant Arms Considering Endpoint Compliance and Its Solution Using Interval Analysis

Kiyoharu TAGAWA; Hiroki TAKAMI; Koichi SHIRAKI; Hiromasa HANEDA

doi:10.9746/sicetr1965.37.990

Transactions of the Society of Instrument and Control Engineers

Online ISSN : 1883-8189
Print ISSN : 0453-4654
ISSN-L : 0453-4654

Optimal Configuration Problem of Redundant Arms Considering Endpoint Compliance and Its Solution Using Interval Analysis

Kiyoharu TAGAWA, Hiroki TAKAMI, Koichi SHIRAKI, Hiromasa HANEDA

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Keywords: redundant arm, endpoint compliance matrix, interval analysis, inverse kinematics

JOURNAL FREE ACCESS

2001 Volume 37 Issue 10 Pages 990-992

DOI https://doi.org/10.9746/sicetr1965.37.990

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Abstract

The inverse kinematics of redundant arms is formulated as a constrained optimization problem, where the configuration of the arm is optimized for decoupling its endpoint compliance matrix as much as possible. Then a global optimization method using the interval analysis is presented for solving the problem. Experimental results demonstrate the characteristic of the proposed method and also exhibit the best configuration of a redundant arm engaged in the Peg-in-Hole task.

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