论文信息 - Two-dimensional spatio-temporal dynamics of analog image processing neural networks

Two-dimensional spatio-temporal dynamics of analog image processing neural networks

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.

Takashi Matsumoto | Haruo Kobayashi | Jun Sanekata

[1] Leon O. Chua,et al. Resistive grid image filtering: input/output analysis via the CNN framework , 1992 .

[2] J. L. White,et al. Active resistor networks as 2D sampled data filters , 1992 .

[3] Alan L. Yuille,et al. A regularized solution to edge detection , 1985, J. Complex..

[4] Takashi Matsumoto,et al. Spatial versus temporal stability issues in image processing neuro chips , 1992, IEEE Trans. Neural Networks.

[5] J. L. White,et al. An active resistor network for Gaussian filtering of images , 1991 .

[6] A. N. Willson,et al. On the equivalence of spatial and temporal stability for translation invariant linear resistive networks , 1992 .

[7] John L. Wyatt,et al. Stability criterion for lateral inhibition and related networks that is robust in the presence of integrated circuit parasitics , 1988 .

[8] D. Kelly,et al. Stability in contractive nonlinear neural networks , 1990, IEEE Transactions on Biomedical Engineering.

[9] Carver Mead,et al. Analog VLSI and neural systems , 1989 .