Recognition of Manipulated Objects by Motor Learning

Part of Advances in Neural Information Processing Systems 4 (NIPS 1991)

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Authors

Hiroaki Gomi, Mitsuo Kawato

Abstract

We present two neural network controller learning schemes based on feedback(cid:173) error-learning and modular architecture for recognition and control of multiple manipulated objects. In the first scheme, a Gating Network is trained to acquire object-specific representations for recognition of a number of objects (or sets of objects). In the second scheme, an Estimation Network is trained to acquire function-specific, rather than object-specific, representations which directly estimate physical parameters. Both recognition networks are trained to identify manipulated objects using somatic and/or visual information. After learning, appropriate motor commands for manipulation of each object are issued by the control networks.