网络上切换中立Filippov系统的实用固定时间控制

Practical Fixed-Time Control of Switched Neutral Filippov Systems on Networks

IEEE Transactions on Cybernetics · 2026
被引 0
ABS 3

中文导读

研究了网络上切换中立Filippov系统的实用固定时间控制,提出了带不定函数的Lyapunov不等式和实用固定时间稳定性引理,通过自适应控制实现同步,并用LC传输线仿真验证。

Abstract

In this article, the practical fixed-time (FxT) control of switched neutral Filippov systems (SNFSs) on networks is considered. The perturbation functions that can be discontinuous, and the neutral logics expressed by the difference operators, are addressed by new approaches. Several novel Lyapunov inequalities with indefinite functions are proposed, where detailed estimations of the settling-time (ST) are obtained by discussing the different values of the exponents of the Lyapunov functions, which can include the existing results. Considering that the states generally cannot converge to the origin accurately under finite-time control in real applications, practical FxT stability lemmas with indefinite functions are established for the first time, in which the bounded condition imposed on the indefinite function is more practical than the previously unbounded ones. By designing the adaptive control strategies, the FxT and practical FxT synchronization control are investigated based on the Lyapunov-Krasovskii functionals (LKFs), which show the delay characteristic via the adaptive update law containing delay values. Notably, the theoretical deficiency arising from the Lyapunov function when studying the FxT stability of real systems with delays by using the FxT stability lemmas with indefinite function is solved in a successful way. Finally, the validity of the main results is verified by numerical simulations on an electrical device containing an LC transmission line.

切换系统中立系统Filippov系统固定时间控制同步控制