Home /Research /Computation of Marginal External Force Space of Power Grasp Using Polyhedral Convex Set Theory.
MANIPULATION

Computation of Marginal External Force Space of Power Grasp Using Polyhedral Convex Set Theory.

Yoshihiko Nakamura, Shoichiro Kurushima

Year
1997
Citations
5
Access
Open access

Abstract

This paper describes an efficient computation algorithm of the marginal external force space of the power grasp. A general computational algorithm of the space is provided for the 3-dimensional grasp with multiple contacts including defective contacts by a multi-fingered robot hand. Evaluation of the marginal external force space requires the computation of convex hull in a 6-dimensional space, which is known to have O(n⌊(d+1)/2⌋) computational complexity. For more realistic evaluation, we propse to compute the 3-dimensional section of the marginal external force space, and establish its computational scheme. Numerical examples, for 3-dimensional grasp by a 3-fingered robot hand, illustrate the efficiency and usefulness of the proposed algorithms.

Keywords

GRASPComputationConvex hullSpace (punctuation)Computer scienceComputational complexity theoryComputational geometrySet (abstract data type)Regular polygonConvex set

Related papers

Browse all MANIPULATION papers