Global Exponential Stability and Periodic Solutions of Delayed Cellular Neural Networks

A set of criteria is presented for the global exponential stability and the Ž . existence of periodic solutions of delayed cellular neural networks DCNNs by constructing suitable Lyapunov functionals, introducing many parameters and combining with the elementary inequality technique. These criteria

## Abstract This paper proposes a class of more general model of recurrent neural networks with __functional__ delay, which has been found more suitable to apply directly. Simple and easily checkable conditions of existence, uniqueness, and global exponential stability of periodic solution for the

In this paper, by utilizing Lyapunov functional method, the quality of negative definite matrix and the linear matrix inequality approach, the global exponential stability of the equilibrium point for a class of generalized delayed neural networks with impulses is investigated. A new criterion on gl

This paper considers the global exponential stability and exponential convergence rate of impulsive neural networks with continuously distributed delays in which the state variables on the impulses are related to the unbounded distributed delays. By establishing a new impulsive delay differential in