The general critical analysis for continuous-time UPPAM recurrent neural networks

The general critical analysis for continuous-time UPPAM recurrent neural networks

The uniformly pseudo-projection-anti-monotone (UPPAM) neural network model, which can be considered as the unified continuous-time neural networks (CNNs), includes almost all of the known CNNs individuals. Recently, studies on the critical dynamics behaviors of CNNs have drawn special attentions due...

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Publié dans:Neurocomputing. - 1998. - 175(2016), Pt A vom: 29. Jan., Seite 40-46
Auteur principal: Qiao, Chen (Auteur)
Autres auteurs: Jing, Wen-Feng, Fang, Jian, Wang, Yu-Ping
Format: Article
Langue:English
Publié: 2016
Accès à la collection:Neurocomputing
Sujets:Journal Article Continuous-time recurrent neural network dynamical analysis general critical condition uniformly pseudo-projection-anti-monotone network
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Résumé:The uniformly pseudo-projection-anti-monotone (UPPAM) neural network model, which can be considered as the unified continuous-time neural networks (CNNs), includes almost all of the known CNNs individuals. Recently, studies on the critical dynamics behaviors of CNNs have drawn special attentions due to its importance in both theory and applications. In this paper, we will present the analysis of the UPPAM network under the general critical conditions. It is shown that the UPPAM network possesses the global convergence and asymptotical stability under the general critical conditions if the network satisfies one quasi-symmetric requirement on the connective matrices, which is easy to be verified and applied. The general critical dynamics have rarely been studied before, and this work is an attempt to gain an meaningful assurance of general critical convergence and stability of CNNs. Since UPPAM network is the unified model for CNNs, the results obtained here can generalize and extend the existing critical conclusions for CNNs individuals, let alone those non-critical cases. Moreover, the easily verified conditions for general critical convergence and stability can further promote the applications of CNNs
Description:Date Revised 16.12.2021
published: Print
Citation Status PubMed-not-MEDLINE
ISSN:1872-8286