Title :
Optical neural network with autonulling bridge cells using a nearest-neighbor interconnection scheme
Author :
Bey, Paul P., Jr. ; SooHoo, Jeffrey R. ; Fare, Thomas L.
Author_Institution :
Geo-Centers Inc., Ft. Washington, MD, USA
Abstract :
A cellular neural network (CNN) using autonulling bridge networks as the unit cells is discussed. This system uses phototransistors as optically controlled transducers in the unknown branch of the bridge. When incorporated either as an input to a CNN or as an integral part of a CNN, the phototransistor-bridge cell (PBC) offers a means to detect small signal changes on large background levels in real-time. It also enables the reduction of noise using the interconnection techniques established for CNNs. The inherent properties of the bridge network also contribute to noise reduction. The stability of the stand-alone PBC is discussed, and PSPICE simulations are conducted for a single PBC and a 4×4 array of PBCs with nearest-neighbor interconnection
Keywords :
SPICE; bridge circuits; digital simulation; optical interconnections; optical neural nets; phototransistors; CNN; PSPICE simulations; autoing bridge cells; cellular neural network; interconnection techniques; nearest-neighbor interconnection; nearest-neighbor interconnection scheme; optical neural nets; optically controlled transducers; phototransistor-bridge cell; phototransistors; stability; Bridges; Cellular neural networks; Control systems; Neural networks; Noise reduction; Optical computing; Optical control; Optical fiber networks; Optical network units; Phototransistors;
Conference_Titel :
Circuits and Systems, 1992., Proceedings of the 35th Midwest Symposium on
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-0510-8
DOI :
10.1109/MWSCAS.1992.271384
