An experimental approach to robotic grasping using a connectionist architecture and generic grasping functions

Author

Moussa, Medhat A. ; Kamel, Mohamed S.

Author_Institution

Dept. of Syst. Design Eng., Waterloo Univ., Ont., Canada

Volume

28

Issue

2

fYear

1998

fDate

5/1/1998 12:00:00 AM

Firstpage

239

Lastpage

253

Abstract

An experimental approach to robotic grasping is presented. This approach is based on developing a generic representation of grasping rules, which allows learning them from experiments between the object and the robot. A modular connectionist design arranged in subsumption layers is used to provide a mapping between sensory inputs and robot actions. Reinforcement feedback is used to select between different grasping rules and to reduce the number of failed experiments. This is particularly critical for applications in the personal service robot environment. Simulated experiments on a 15-object database show that the system is capable of learning grasping rules for each object in a finite number of experiments as well as generalizing from experiments on one object to grasping from another

Keywords

feedback; learning systems; manipulators; neural nets; connectionist architecture; generic grasping functions; generic grasping rule representation; learning; modular connectionist design; object database; personal service robot environment; reinforcement feedback; robot actions; robotic grasping; sensory inputs; simulated experiments; subsumption layers; Databases; Grasping; Grippers; Humans; Intelligent robots; Manipulators; Performance evaluation; Robot sensing systems; Service robots; System testing;

fLanguage

English

Journal_Title

Systems, Man, and Cybernetics, Part C: Applications and Reviews, IEEE Transactions on

Publisher

ieee

ISSN

1094-6977

Type

jour

DOI

10.1109/5326.669561

Filename

669561