Open AccessNavigating Dynamic Environments with Trajectory Deformation
Author(s) -
Thierry Fraichard,
Vivien Delsart
Publication year - 2008
Publication title -
journal of computing and information technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.169
H-Index - 27
eISSN - 1846-3908
pISSN - 1330-1136
DOI - 10.2498/cit.1001157
Subject(s) - trajectory , computer science , deformation (meteorology) , path (computing) , motion planning , robot , motion (physics) , dimension (graph theory) , collision , artificial intelligence , control theory (sociology) , mathematics , control (management) , physics , computer security , astronomy , meteorology , pure mathematics , programming language
Path deformation is a technique that was introduced to generate robot motion wherein a nominal path, that has been computed beforehand, is continuously deformed on-line in response to unforeseen obstacles. In an effort to improve path deformation, this paper presents a trajectory deformation scheme. The main idea is that by incorporating the time dimension and hence information on the obstacles\u27 future behaviour, quite a number of situations where path deformation would fail can be handled. The trajectory represented as a discrete space-time curve is subject to deformation forces both external (to avoid collision with the obstacles) and internal (to maintain trajectory feasibility and connectivity). The trajectory deformation scheme has been tested successfully on a planar robot with double integrator dynamics moving in dynamic environments
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