Hidden partitioning of a visual feedback-based neuro-controller

Author

Urban, J.P. ; Buessler, J.L. ; Gresser, J.

Author_Institution

TROP Res. Group, Mulhouse Univ., France

Volume

3

fYear

1998

fDate

21-23 Apr 1998

Firstpage

53

Abstract

Robotic controllers take advantage from neural network learning capabilities as long as the dimensionality of the problem is kept moderate. The paper explores the possibilities offered by the combination of several neural networks to design more complex modular controllers. This modularity is based on an internal partitioning of the problem. The partitioning must remain hidden, and should not affect the controller´s interface or functioning, including during its adaptation phases. We introduce a bi-directional architecture to derive the learning rules of the modules. The neuro-controller is trained globally, based on the interactions of the system with its environment, as one would do for a single network. The approach is illustrated on a robotic reaching application. Several partitioning variants of the neuro-controller are discussed and compared

Keywords

Jacobian matrices; adaptive control; feedback; learning (artificial intelligence); manipulator kinematics; neurocontrollers; position control; robot vision; self-organising feature maps; adaptation phases; bi-directional architecture; complex modular controllers; hidden partitioning; internal partitioning; neural network learning capabilities; robotic reaching; visual feedback-based neuro-controller; Bidirectional control; Cameras; Control systems; Feedback control; Humans; Neural networks; Orbital robotics; Partitioning algorithms; Robot control; Robot vision systems;

fLanguage

English

Publisher

ieee

Conference_Titel

Knowledge-Based Intelligent Electronic Systems, 1998. Proceedings KES '98. 1998 Second International Conference on

Conference_Location

Adelaide, SA

Print_ISBN

0-7803-4316-6

Type

conf

DOI

10.1109/KES.1998.725953

Filename

725953