Title :
Haar filtering with pyramidal resistive networks
Author_Institution :
Fac. of Electron. & Telecommun., Tech. Univ. of Iasi, Romania
Abstract :
Resistive networks have attracted the interest of researchers for their potential applications especially in parallel signal processing. At present they are essential components in analog VLSI circuit implementation of many image processing systems. Resistive grids, as well as their dynamic and more complex counterpart-the cellular neural networks-can perform various spatial filtering operations. One of the most important applications of the resistive grid is the silicon retina, proposed by Mahowald and Mead [1989], whose structure has a well-established neurobiological basis. The data to be processed (an image in the 2-D case) is sampled by a rectangular grid, so that each node of the network is associated with a pixel in the image that is to be filtered. In this paper we propose a different structure for a resistive network with a pyramidal topology which may prove to find some useful applications in parallel signal processing. We will show that the proposed network performs a nonlinear spatial filtering of the input 1D image, implementing in fact a Haar filter
Keywords :
Haar transforms; VLSI; analogue processing circuits; cellular neural nets; filtering theory; parallel processing; spatial filters; Haar filtering; analog VLSI circuit implementation; cellular neural networks; image processing systems; nonlinear spatial filtering; parallel signal processing; pyramidal resistive networks; resistive grids; spatial filtering operations; Cellular networks; Cellular neural networks; Circuits; Filtering; Image processing; Neural networks; Retina; Signal processing; Silicon; Very large scale integration;
Conference_Titel :
Circuits and Systems, 2000. Proceedings. ISCAS 2000 Geneva. The 2000 IEEE International Symposium on
Conference_Location :
Geneva
Print_ISBN :
0-7803-5482-6
DOI :
10.1109/ISCAS.2000.857160
