Artículos de revistas
Gray-scale morphological associative memories
Registro en:
Ieee Transactions On Neural Networks. Ieee-inst Electrical Electronics Engineers Inc, v. 17, n. 3, n. 559, n. 570, 2006.
1045-9227
WOS:000237521300002
10.1109/TNN.2006.873280
Autor
Sussner, P
Valle, ME
Institución
Resumen
Neural models of associative memories are usually concerned with the storage and the retrieval of binary or bipolar patterns. Thus far, the emphasis in research on morphological associative memory systems has been on binary models, although a number of notable features of autoassociative morphological memories (AMMs) such as optimal absolute storage capacity and one-step convergence have been shown to hold in the general, gray-scale setting. In this paper, we make extensive use of minimax algebra to analyze gray-scale autoassociative morphological memories. Specifically, we provide a complete characterization of the fixed points and basins of attractions which allows us to describe the storage and recall mechanisms of gray-scale AMMs. Computer simulations using gray-scale images illustrate our rigorous mathematical results on the storage capacity and the noise tolerance of gray-scale morphological associative memories (MAMs). Finally, we introduce a modified gray-scale AMM model that yields a fixed point which is closest to the input pattern with respect to the Chebyshev distance and show how gray-scale AMMs can be used as classifiers. 17 3 559 570