Human-performed assembly task evaluation through a virtual operator

Author

Sobhee, Ashvin ; Druon, Sébastien ; Crosnier, André

Author_Institution

LIRMM, Univ. Montpellier II, Montpellier, France

fYear

2009

fDate

22-26 June 2009

Firstpage

1

Lastpage

6

Abstract

The study presented in this paper aims at achieving optimal paths for a human-performed assembly task. Optimality, from an operator´s point of view, means that minimal fatigue occurs. Trajectories for assembly parts, generated by potential fields, are optimized in terms of the work the operator has to do. Optimization is carried out by genetic algorithm. The trajectories have to satisfy the constraints imposed by physical human limitations. We therefore introduce a virtual human operator in the working environment, and determine by means of inverse kinematics if the trajectories are feasible. Our method is tested on the assembly of a mechanical part in 3D space.

Keywords

assembling; control engineering computing; genetic algorithms; man-machine systems; position control; task analysis; virtual reality; genetic algorithm; human-performed assembly task evaluation; optimization; trajectories; virtual operator; Computational modeling; Cost function; Fatigue; Genetic algorithms; Humans; Kinematics; Orbital robotics; Path planning; Robotic assembly; Service robots;

fLanguage

English

Publisher

ieee

Conference_Titel

Advanced Robotics, 2009. ICAR 2009. International Conference on

Conference_Location

Munich

Print_ISBN

978-1-4244-4855-5

Electronic_ISBN

978-3-8396-0035-1

Type

conf

Filename

5174718