Part of Advances in Neural Information Processing Systems 2 (NIPS 1989)
Dun-Sung Tang
Analytic solutions to the information-theoretic evolution equa(cid:173) tion of the connection strength of a three-layer feedforward neural net for visual information processing are presented. The results are (1) the receptive fields of the feature-analysing cells corre(cid:173) spond to the eigenvector of the maximum eigenvalue of the Fred(cid:173) holm integral equation of the first kind derived from the evolution equation of the connection strength; (2) a symmetry-breaking mechanism (parity-violation) has been identified to be respon(cid:173) sible for the changes of the morphology of the receptive field; (3) the conditions for the formation of different morphologies are explicitly identified.