Title :
Rapid learning of inverse robot kinematics based on connection assignment and topographical encoding (CATE)
Author :
Hakala, J. ; Fahner, G. ; Eckmiller, R.
Author_Institution :
Dept. of Biophys., Heinrich-Heine-Univ., Dusseldorf, Germany
Abstract :
An adaptive neural structure for robot control based on homogeneous encoding in a topographical manner is developed. An intermediate representation (IRep) is adaptively generated using a novel learning scheme, CATE. The connection assignment rules of CATE keep the number of IRep-neurons as small as possible, while maintaining the desired mapping accuracy. This adaptive net (CATEnet) was successfully applied to embed the inverse kinematics of a redundant, planar robot arm (four-joint-machine) with only a few presentations of the learning set. The mapping solution incorporated local optimization of a cost function to account for a limited joint range and to avoid singularities
Keywords :
kinematics; learning systems; neural nets; robots; IRep-neurons; adaptive neural structure; connection assignment; four-joint-machine; inverse robot kinematics; learning scheme; robot control; topographical encoding; Adaptive control; Biophysics; Cybernetics; Electronic mail; Encoding; Function approximation; Neural networks; Neurons; Programmable control; Robot kinematics;
Conference_Titel :
Neural Networks, 1991. 1991 IEEE International Joint Conference on
Print_ISBN :
0-7803-0227-3
DOI :
10.1109/IJCNN.1991.170618
