On the Variable Step-Size of Discrete-Time Zhang Neural Network and Newton Iteration for Constant Matrix Inversion

On the Variable Step-Size of Discrete-Time Zhang Neural Network and Newton Iteration for Constant Matrix Inversion

A special kind of recurrent neural network has recently been proposed by Zhang et al for matrix inversion. Then, for possible hardware and digital-circuit realization, the corresponding discrete-time model of Zhang neural network (ZNN) is proposed for constant matrix inversion, which reduces exactly...

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Hauptverfasser: Yunong Zhang, Binghuang Cai, Mingjiong Liang, Weimu Ma
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Application software
Convergence
Information science
Information technology
Intelligent networks
Neural network hardware
Neural networks
Problem-solving
Recurrent neural networks
Sun
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Zusammenfassung:A special kind of recurrent neural network has recently been proposed by Zhang et al for matrix inversion. Then, for possible hardware and digital-circuit realization, the corresponding discrete-time model of Zhang neural network (ZNN) is proposed for constant matrix inversion, which reduces exactly to Newton iteration when linear activation functions and constat step-size 1 are used. In this paper, a variable step-size choosing method is investigated for such a discrete-time ZNN model, in which different variable step-size rules are derived for different kinds of activation functions. For comparative purposes, the fixed step-size choosing method is presented as well. Numerical examples demonstrate the efficacy of the discrete-time ZNN model, especially when using the variable step-size method.
DOI:10.1109/IITA.2008.128