A dynamical adaptive resonance architecture

A dynamical adaptive resonance architecture

A set of nonlinear differential equations that describe the dynamics of the ART1 model are presented, along with the motivation for their use. These equations are extensions of those developed by Carpenter and Grossberg (1987). It is shown how these differential equations allow the ART1 model to be...

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Veröffentlicht in:IEEE transactions on neural networks 1994-11, Vol.5 (6), p.873-889
Hauptverfasser: Heileman, G.L., Georgiopoulos, M., Abdallah, C.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Artificial intelligence
Chaos
Circuits
Computer architecture
Computer science
control theory
systems
Connectionism. Neural networks
Differential equations
Exact sciences and technology
Mathematical model
Neural networks
Nonlinear dynamical systems
Nonlinear equations
Resonance
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Zusammenfassung:A set of nonlinear differential equations that describe the dynamics of the ART1 model are presented, along with the motivation for their use. These equations are extensions of those developed by Carpenter and Grossberg (1987). It is shown how these differential equations allow the ART1 model to be realized as a collective nonlinear dynamical system. Specifically, we present an ART1-based neural network model whose description requires no external control features. That is, the dynamics of the model are completely determined by the set of coupled differential equations that comprise the model. It is shown analytically how the parameters of this model can be selected so as to guarantee a behavior equivalent to that of ART1 in both fast and slow learning scenarios. Simulations are performed in which the trajectories of node and weight activities are determined using numerical approximation techniques.< >
ISSN:1045-9227
1941-0093
DOI:10.1109/72.329684