Projective quasi-synchronization of coupled memristive neural networks with uncertainties and impulsive effect

Abstract: The dynamic behavior of memristive neural networks (MNNs), including synchronization, effectively keeps the robotic stability against numerous uncertainties from the mimic of the human brain. However, it is challenging to perform projective quasi-synchronization of coupled MNNs with low-consumer control devices. This is partly because complete synchronization is difficult to realize under various projective factors and parameter mismatch. This article aims to investigate projective quasi-synchronization from t… Show more

“…However, it has been proven that uncertain factors and mismatched parameters that are destructive in dynamic behaviors [21,22], often lead to desynchronization, oscillatory behaviors, or even instability. To handle such negative factors, new practical pinning control mechanisms have been designed for event-triggered schemes to improve the synchronization or stability of CMNNs.…”

Pinning Event-Triggered Scheme for Synchronization of Delayed Uncertain Memristive Neural Networks

“…However, it has been proven that uncertain factors and mismatched parameters that are destructive in dynamic behaviors [21,22], often lead to desynchronization, oscillatory behaviors, or even instability. To handle such negative factors, new practical pinning control mechanisms have been designed for event-triggered schemes to improve the synchronization or stability of CMNNs.…”

Pinning Event-Triggered Scheme for Synchronization of Delayed Uncertain Memristive Neural Networks