Title :
Two-dimensional spatio-temporal dynamics of analog image processing neural networks
Author :
Kobayashi, Haruo ; Matsumoto, Takashi ; Sanekata, Jun
Author_Institution :
Teratec Corp., Tokyo, Japan
fDate :
9/1/1995 12:00:00 AM
Abstract :
A typical analog image-processing neural network consists of a 2D array of simple processing elements. When it is implemented with CMOS LSI, two dynamics issues naturally arise: (1) parasitic capacitors of MOS transistors induce temporal dynamics. Since a processed image is given as the stable equilibrium point of temporal dynamics, a temporally unstable chip is unusable; and (2) because of the array structure, the node voltage distribution induces spatial dynamics, and the node voltage distribution could behave in a wild manner which is undesirable for image-processing purposes. This paper derives several explicit formulas and relationships for the 2D dynamics, which are useful for the design and analysis of the class of networks of interest
Keywords :
CMOS analogue integrated circuits; analogue processing circuits; image processing; large scale integration; neural chips; voltage distribution; 2D spatio-temporal dynamics; CMOS LSI; MOS transistors; analog image processing; equilibrium point; neural networks; node voltage distribution; parasitic capacitors; spatial dynamics; temporal dynamics; Boundary conditions; Circuit stability; Eigenvalues and eigenfunctions; Energy consumption; Frequency; Image processing; Neural networks; Sensor arrays; Two dimensional displays; Voltage-controlled oscillators;
Journal_Title :
Neural Networks, IEEE Transactions on
