SEQUENTIAL COLLISION-FREE OPTIMAL MOTION PLANNING ALGORITHMS IN PUNCTURED EUCLIDEAN SPACES-Reference-Cited by-同舟云学术

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SEQUENTIAL COLLISION-FREE OPTIMAL MOTION PLANNING ALGORITHMS IN PUNCTURED EUCLIDEAN SPACES

Published:2020-03-13 Issue:3 Volume:102 Page:506-516
ISSN:0004-9727
Container-title:Bulletin of the Australian Mathematical Society
language:en
Short-container-title:Bull. Aust. Math. Soc.

Author:

IPANAQUE ZAPATA CESAR A.^ORCID,GONZÁLEZ JESÚS^ORCID

Abstract

In robotics, a topological theory of motion planning was initiated by M. Farber. We present optimal motion planning algorithms which can be used in designing practical systems controlling objects moving in Euclidean space without collisions between them and avoiding obstacles. Furthermore, we present the multi-tasking version of the algorithms.

Publisher

Cambridge University Press (CUP)

Subject

General Mathematics

Reference10 articles.

1. Higher topological complexity and its symmetrization

2. Robot Motion Planning

3. Topological Complexity of Motion Planning

4. [10] Zapata, C. A. I. and González, J. , ‘Multitasking collision-free optimal motion planning algorithms in Euclidean spaces’, Discrete Mathematics, Algorithms and Applications, to appear.

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