DocumentCode
1560319
Title
Cellular neural networks: a paradigm for nonlinear spatio-temporal processing
Author
Fortuna, Luigi ; Arena, Paolo ; Bálya, David ; Zarándy, Ákos
Author_Institution
Dept. di Electtrico Elettronica e Sistemistico, Catania Univ., Italy
Volume
1
Issue
4
fYear
2001
Firstpage
6
Lastpage
21
Abstract
The paradigm of Cellular Neural Networks (CNNs)is going to achieve a complete maturity. In fact, from a methodological point of view, important results on their digitally programmable analog dynamics have been gained, completed with thousands of application routines. This has encouraged the spreading of a great number of applications in the most different disciplines. Moreover, their structure, tailor made for VLSI realization, has led to the production of some chip prototypes that, embedded in a computational infrastructure, have produced the first analogic cellular computers. This completes the framework and makes it possible to realize complex spatio-temporal and filtering tasks on a time scale of microseconds. In this paper some sketches on the main aspects of CNNs, from the formal to the hardware prototype point of view, are presented together with some appealing applications to illustrate complex image, visual and spatio-temporal dynamics processing
Keywords
VLSI; analogue processing circuits; cellular neural nets; image processing; image processing equipment; mobile robots; neural chips; real-time systems; Aladdin visual computer; CNN; LAMPBOT; REXABOT; VLSI realization; WORMBOT; cellular neural networks; chip prototypes; digitally programmable analog dynamics; nonlinear spatio-temporal processing; real-time microarray image processing; spatio-temporal dynamics processing; visual processing; Analog computers; Application software; Cellular neural networks; Circuits; Embedded computing; Neural networks; Partial differential equations; Prototypes; Supercomputers; Very large scale integration;
fLanguage
English
Journal_Title
Circuits and Systems Magazine, IEEE
Publisher
ieee
ISSN
1531-636X
Type
jour
DOI
10.1109/7384.982893
Filename
982893
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