Dual-Arm Robot Motion Planning Based on Cooperative Coevolution
Résumé
This paper presents a cooperative coevolutionary
approach to path planning for two robotic arms sharing common workspace.
Each arm is considered an agent, required to find transition strategy
from given initial to final configuration in the work space. Since the
robots share workspace, they present dynamic obstacle to each other. To
solve the problem of path planning in optimized fashion, we formulated
it to multi-objective optimization domain and implemented
co-evolutionary algorithm to simultaneously optimize four conflicting
objectives. End-effector trajectory length, end-effector velocity
distribution, total rotate angle and number of collisions are the
objectives to be optimized. Simulation results for two 2-R type robots
are presented.
Domaines
Bibliothèque électronique [cs.DL]Origine | Fichiers produits par l'(les) auteur(s) |
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