edited by Lakhmi C. Jain, Beatrice Lazzerini, Ugur Halici.
Heidelberg :
Imprint: Physica,
2000.
Studies in Fuzziness and Soft Computing,
43
1434-9922 ;
A. Filippidis, M. Russo, L.C. Jain: Novel Extension of ART2 in Surface Landmine Detection -- M. Blume: An Efficient Mapping of Fuzzy ART onto a Neural Architecture -- M. Blume, D.A. Van Blerkom: Fuzzy ARTMAP Modifications for Intersecting Class Distributions -- A.-H. Tan: Supervised Adaptive Resonance Theory and Rules -- G. Bartfai, R. White: Incremental Learning and Optimization of Hierarchical Clusterings with ART-Based Modular Networks -- C.P. Lim, R.F. Harrison: ART-Based Autonomous Learning Systems: Part I - Architectures and Algorithms -- C.P. Lim, R.F. Harrison: ART-Based Autonomous Learning Systems: Part II - Applications -- T. Serrano-Gotarredona, B. Linares-Barranco: Adaptive Resonance Theory Microchips.
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In the last two decades the artificial neural networks have been refined and widely used by the researchers and application engineers. We have not witnessed such a large degree of evolution in any other artificial neural network as in the Adaptive Resonance Theory (ART) neural network. The ART network remains plastic, or adaptive, in response to significant events and yet remains stable in response to irrelevant events. This stability-plasticity property is a great step towards realizing intelligent machines capable of autonomous learning in real time environment. The main aim of this book is to report a very small sample of the research on the evolution of ART neural network and its applications. Interested readers may refer literature for many more innovations in ART such as Fuzzy ART, ART2, ART2-a, ARTMAP, ARTMAP-PI, ARTMAP-DS, Gaussian ARTMAP, EXACT ART, and ART-EMAP.