Title :
Methods for image processing and pattern formation in Cellular Neural Networks: a tutorial
Author :
Crounse, Kenneth R. ; Chua, Leon O.
Author_Institution :
Electron. Res. Lab., California Univ., Berkeley, CA, USA
fDate :
10/1/1995 12:00:00 AM
Abstract :
In this paper, we demonstrate that many image processing and pattern formation effects of the simple Cellular Neural Network (CNN) can be understood by means of a common approach. By examining the dynamics in the frequency domain, when all CNN cells are in the linear region, the mechanisms for IIR spatial filtering, pattern formation, morphogenesis, and synergetics can be shown to be present, even though each cell has only first-order dynamics. In addition, the method allows many of the standard CNN templates, such as the nonlinear “averaging”, “halftoning”, and “diffusion” templates to be explained in a new light. Through many examples, it is shown how generalizations of these templates can be used to design linear and nonlinear filters for image processing tasks such as low-pass filtering, time-varying spatial filtering, and fingerprint enhancement
Keywords :
IIR filters; cellular neural nets; filtering theory; fingerprint identification; image processing; low-pass filters; nonlinear filters; pattern recognition; spatial filters; time-varying filters; IIR spatial filtering; cellular neural networks; diffusion templates; fingerprint enhancement; first-order dynamics; frequency domain dynamics; halftoning; image processing; linear filter design; low-pass filtering; morphogenesis; nonlinear averaging; nonlinear filter design; pattern formation; synergetics; time-varying spatial filtering; Cellular neural networks; Filtering; Fingerprint recognition; Frequency domain analysis; IIR filters; Image processing; Low pass filters; Nonlinear filters; Pattern formation; Tutorial;
Journal_Title :
Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on
