Impulsive Control for Existence, Uniqueness, and Global Stability of Periodic Solutions of Recurrent Neural Networks With Discrete and Continuously Distributed Delays

Author

Xiaodi Li ; Shiji Song

Author_Institution

Sch. of Math. Sci., Shandong Normal Univ., Ji´nan, China

Volume

24

Issue

6

fYear

2013

fDate

Jun-13

Firstpage

868

Lastpage

877

Abstract

In this paper, a class of recurrent neural networks with discrete and continuously distributed delays is considered. Sufficient conditions for the existence, uniqueness, and global exponential stability of a periodic solution are obtained by using contraction mapping theorem and stability theory on impulsive functional differential equations. The proposed method, which differs from the existing results in the literature, shows that network models may admit a periodic solution which is globally exponentially stable via proper impulsive control strategies even if it is originally unstable or divergent. Two numerical examples and their computer simulations are offered to show the effectiveness of our new results.

Keywords

asymptotic stability; delays; differential equations; discrete systems; distributed control; neurocontrollers; recurrent neural nets; computer simulations; continuously distributed delays; contraction mapping theorem; discrete distributed delays; global exponential stability; global stability; impulsive control strategies; impulsive functional differential equations; periodic solutions; recurrent neural networks; stability theory; Contraction mapping theorem; delays; existence; impulsive control; periodic solution; recurrent neural networks; stability theory; uniqueness;

fLanguage

English

Journal_Title

Neural Networks and Learning Systems, IEEE Transactions on

Publisher

ieee

ISSN

2162-237X

Type

jour

DOI

10.1109/TNNLS.2012.2236352

Filename

6487407