Synchronization of multi-agent delayed neural networks with stochastic disturbances via impulsive distributed control

Abstract

The cooperative synchronization of multi-agent delayed neural networks with stochastic disturbances is investigated in this paper. Impulsive inputs are used to synchronize the followers to the leader, which requires state information exchange only at discrete time instants and reduces the communication cost of bandwidth. Some novel synchronization sufficient conditions are given in terms of matrix inequalities. It is shown that synchronization can be realized if the impulsive control parameters are suitably selected. Simulation results verify the effectiveness of the proposed synchronization protocol.