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Optimization and Engineering

Erschienen in:

01.09.2013

Computing the lowest equilibrium pose of a cable-suspended rigid body

verfasst von: Jean-François Collard, Philippe Cardou

Erschienen in: Optimization and Engineering | Ausgabe 3/2013

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Abstract

We solve the problem of finding the lowest stable-equilibrium pose of a rigid body subjected to gravity and suspended in space by an arbitrary number of cables. Besides representing a contribution to fundamental rigid-body mechanics, this solution finds application in two areas of robotics research: underconstrained cable-driven parallel robots and cooperative towing. The proposed approach consists in globally minimizing the rigid-body potential energy. This is done by applying a branch-and-bound algorithm over the group of rotations, which is partitioned into boxes in the space of Euler-Rodrigues parameters. The lower bound on the objective is obtained through a semidefinite relaxation of the optimization problem, whereas the upper bound is obtained by solving the same problem for a fixed orientation. The resulting algorithm is applied to several examples drawn from the literature. The reported Matlab implementation converges to the lowest stable equilibrium pose generally in a few seconds for cable-robot applications. Interestingly, the proposed method is only mildly sensitive to the number of suspending cables, which is shown by solving an example with 1000 cables in two hours.

Vorheriger Artikel Quadratic model updating with gyroscopic structure from partial eigendata

Nächster Artikel Optimal power and subcarriers allocation in downlink OFDMA system with imperfect channel knowledge

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The cross-product matrix of r∈ℝ³ is defined as cpm(r)≡∂(r×x)/∂ x for any x∈ℝ³.

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Titel: Computing the lowest equilibrium pose of a cable-suspended rigid body
verfasst von: Jean-François Collard
Philippe Cardou
Publikationsdatum: 01.09.2013
Verlag: Springer US
Erschienen in: Optimization and Engineering / Ausgabe 3/2013
Print ISSN: 1389-4420
Elektronische ISSN: 1573-2924
DOI: https://doi.org/10.1007/s11081-012-9191-5

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