Stability of discrete time recurrent neural networks and nonlinear optimization problems.

Journal: Neural networks : the official journal of the International Neural Network Society

Published Date: Nov 7, 2015

Abstract

We consider the method of Reduction of Dissipativity Domain to prove global Lyapunov stability of Discrete Time Recurrent Neural Networks. The standard and advanced criteria for Absolute Stability of these essentially nonlinear systems produce rather weak results. The method mentioned above is proved to be more powerful. It involves a multi-step procedure with maximization of special nonconvex functions over polytopes on every step. We derive conditions which guarantee an existence of at most one point of local maximum for such functions over every hyperplane. This nontrivial result is valid for wide range of neuron transfer functions.

Authors

Jayant Singh

Department of Mathematics, North Dakota State University, Fargo, ND-58102, USA. Electronic address: Jayant.Singh@ndsu.edu.
Nikita Barabanov

Department of Mathematics, North Dakota State University, Fargo, ND-58102, USA. Electronic address: nikita.barabanov@ndsu.edu.

Keywords

Algorithms Neural Networks, Computer Neurons Nonlinear Dynamics

External Resources

View on PubMed Access via DOI PubMed (26655338)

Stability of discrete time recurrent neural networks and nonlinear optimization problems.

Abstract

Authors

Keywords

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