Title :
A neural architecture for unsupervised learning with shift, scale and rotation invariance, efficient software simulation heuristics, and optoelectronic implementation
Author :
Wunsch, Donald C., II ; Newman, David S. ; Caudell, Thomas P. ; Capps, David ; Falk, R. Aaron
Author_Institution :
Boeing Co., Seattle, WA, USA
Abstract :
A simple modification of the adaptive resonance theory (ART) neural network allows shift, scale and rotation invariant learning. The authors point out that this can be accomplished as a neural architecture by modifying the standard ART with hardwired interconnects that perform a Fourier-Mellin transform, and show how to modify the heuristics for efficient simulation of ART architectures to accomplish the additional innovation. Finally, they discuss the implementation of this in optoelectronic hardware, using a modification of the Van der Lugt optical correlator
Keywords :
learning systems; neural nets; optical information processing; optoelectronic devices; Fourier-Mellin transform; Van der Lugt optical correlator; adaptive resonance theory; hardwired interconnects; neural architecture; neural network; optoelectronic hardware; optoelectronic implementation; rotation invariance; scale invariance; shift invariance; software simulation heuristics; unsupervised learning; Clustering algorithms; Computer architecture; Fourier transforms; Hardware; Neural networks; Optical network units; Resonance; Subspace constraints; Switches; Unsupervised learning;
Conference_Titel :
System Sciences, 1991. Proceedings of the Twenty-Fourth Annual Hawaii International Conference on
Conference_Location :
Kauai, HI
DOI :
10.1109/HICSS.1991.183898
