Static output feedback secure synchronization control for Markov jump neural networks under hybrid cyber-attacks

“…Remark Till recently, great focus has been devoted to References 11‐13, highlighting the fact that it addresses all aspects of synchronization of CNs under cyber attacks. Numerous studies have focused on using static output feedback control 46 and ETC 47 methods to reduce the number of channels that have been attacked during period. As a result, the output‐based pinning synchronization control via AETS strategy described in this article is more practical and effectively reduces the communication overhead when compared to the above methodologies.…”

“…Many synchronization controls for CNs with different types attacks are discussed in References 13,38, and 48. Due to the lack of research on the synchronization of CNs under cyber‐attacks, the dissemination of related work is still very few 27,46 . However, no research into DoS, deception, and reply hybrid cyber‐attacks at the same time in a synchronization complex network has been conducted.…”

“…Remark The authors discussed in different types of control for synchronization of CNs under cyber attacks 37,38,46 . But in this work first time proposed hybrid cyber attack model for synchronization of CNs.…”

“…In reality, this attack technique is widely available, specifically in complex dynamical systems. A novel output pinning synchronization control based on AETS is proposed, which can reduce computational load and preserve communication resources. In comparison to previous studies, 13,46 proposed control is more realistic and advantageous for saving communication resources. Novel sufficient asymptotic stability conditions for synchronization error systems have been established. Event‐triggered parameter and the controller gains can be acquired simultaneously utilizing LMI technology. Finally, two numerical examples are presented to demonstrate the proposed design approach's efficiency and superiority.…”

“…In Reference 40, adaptive control design is used to guarantee the security and safety of sensor and actuator attacks. The decentralized event‐triggered $$$ {H}_{\infty } $$$ control system under cyber‐attacks is addressed in References 41,44‐46.…”

Adaptive event‐triggered pinning synchronization control for complex networks with random saturation subject to hybrid cyber‐attacks

“…Remark Till recently, great focus has been devoted to References 11‐13, highlighting the fact that it addresses all aspects of synchronization of CNs under cyber attacks. Numerous studies have focused on using static output feedback control 46 and ETC 47 methods to reduce the number of channels that have been attacked during period. As a result, the output‐based pinning synchronization control via AETS strategy described in this article is more practical and effectively reduces the communication overhead when compared to the above methodologies.…”

“…Many synchronization controls for CNs with different types attacks are discussed in References 13,38, and 48. Due to the lack of research on the synchronization of CNs under cyber‐attacks, the dissemination of related work is still very few 27,46 . However, no research into DoS, deception, and reply hybrid cyber‐attacks at the same time in a synchronization complex network has been conducted.…”

“…Remark The authors discussed in different types of control for synchronization of CNs under cyber attacks 37,38,46 . But in this work first time proposed hybrid cyber attack model for synchronization of CNs.…”

“…In reality, this attack technique is widely available, specifically in complex dynamical systems. A novel output pinning synchronization control based on AETS is proposed, which can reduce computational load and preserve communication resources. In comparison to previous studies, 13,46 proposed control is more realistic and advantageous for saving communication resources. Novel sufficient asymptotic stability conditions for synchronization error systems have been established. Event‐triggered parameter and the controller gains can be acquired simultaneously utilizing LMI technology. Finally, two numerical examples are presented to demonstrate the proposed design approach's efficiency and superiority.…”

“…In Reference 40, adaptive control design is used to guarantee the security and safety of sensor and actuator attacks. The decentralized event‐triggered $$$ {H}_{\infty } $$$ control system under cyber‐attacks is addressed in References 41,44‐46.…”

Adaptive event‐triggered pinning synchronization control for complex networks with random saturation subject to hybrid cyber‐attacks

Fixed-Time Anti-synchronization and Preassigned-Time Synchronization of Discontinuous Fuzzy Inertial Neural Networks with Bounded Distributed Time-Varying Delays

Asynchronous sliding mode control of continuous-time singular markov jump systems with time-varying delay under event-triggered strategy