Fixed‐time synchronization of stochastic complex networks with Markov jump and mixed delays via adaptive non‐chattering control

Abstract: In this article, the fixed‐time synchronization problem for stochastic complex networks (CNs) with Markov jump and mixed delays is investigated. Compared with fixed‐time synchronization of stochastic CNs in existing literature, the fixed‐time synchronization for stochastic CNs with Markov jump and mixed delays is studied for the first time, which is of better significance. Utilizing the Lyapunov method, under the framework of adaptive non‐chattering control, some fixed‐time synchronization conditions are deriv… Show more

“…35,36 In network control systems, due to limitations of the network carrying capacity and the communication bandwidth, time delays are often introduced in transmission of signals. 37,38 Time delays may lead to oscillation and instability of the control systems, thus which should be accurately estimated. [39][40][41] The greedy algorithm has been widely used for identification of systems with unknown time delays, which has advantages of fast convergence rate and simple structure.…”

“…For example, in chemical process systems, due to economic considerations or technological difficulties, some key variables indicating the production states can only be analyzed offline in laboratories, resulting in long sampling periods and inevitable time delays 35,36 . In network control systems, due to limitations of the network carrying capacity and the communication bandwidth, time delays are often introduced in transmission of signals 37,38 . Time delays may lead to oscillation and instability of the control systems, thus which should be accurately estimated 39‐41 .…”

Identification of dual‐rate sampled errors‐in‐variables systems with time delays

“…35,36 In network control systems, due to limitations of the network carrying capacity and the communication bandwidth, time delays are often introduced in transmission of signals. 37,38 Time delays may lead to oscillation and instability of the control systems, thus which should be accurately estimated. [39][40][41] The greedy algorithm has been widely used for identification of systems with unknown time delays, which has advantages of fast convergence rate and simple structure.…”

“…For example, in chemical process systems, due to economic considerations or technological difficulties, some key variables indicating the production states can only be analyzed offline in laboratories, resulting in long sampling periods and inevitable time delays 35,36 . In network control systems, due to limitations of the network carrying capacity and the communication bandwidth, time delays are often introduced in transmission of signals 37,38 . Time delays may lead to oscillation and instability of the control systems, thus which should be accurately estimated 39‐41 .…”

Identification of dual‐rate sampled errors‐in‐variables systems with time delays

Exponential stability for switched semi‐Markov jump systems with mode‐dependent average dwell time and generally uncertain transition rates

Asymptotic synchronization and topology identification of stochastic hybrid delayed coupled systems with multiple weights