Planning Optimal Force-Closure Grasps for Curved Objects by Genetic Algorithm

Planning Optimal Force-Closure Grasps for Curved Objects by Genetic Algorithm

This paper describes the use of genetic algorithm to solve the problem of planning optimal force-closure grasps on 2D and 3D objects. The proposed approach searches for optimal grasps from parametric curves of a 2D object or parametric surfaces of a 3D object. The search method is based on the conce...

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Bibliographische Detailangaben
Hauptverfasser: Phoka, T., Niparnan, N., Sudsang, A.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Fingers
Genetic algorithms
Genetic engineering
Humanoid robots
Linear programming
Position measurement
Resists
Search methods
Testing
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Beschreibung
Zusammenfassung:This paper describes the use of genetic algorithm to solve the problem of planning optimal force-closure grasps on 2D and 3D objects. The proposed approach searches for optimal grasps from parametric curves of a 2D object or parametric surfaces of a 3D object. The search method is based on the concept of Q distance which can guide the search direction to better solutions. On this metric, genetic algorithm can exploit the characteristic of Q distance to find optimal grasps by directly using the computation of Q distance as the fitness function. This approach is applied to plan optimal force-closure grasps on 2D and 3D curved objects with three and four contact points respectively. Preliminary results are also presented
ISSN:2158-2181
DOI:10.1109/RAMECH.2006.252683