基于协议的多区域概率时变时滞模糊半马尔可夫切换系统的滑模控制

Protocol-Based SMC for Fuzzy Semi-Markov Switching Systems With Multizone Probabilitic Time-Varying Delays

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2025
被引 6
ABS 3

中文导读

研究了多区域概率时变时滞下模糊半马尔可夫切换系统的滑模控制,提出一种新型多区域概率动态事件触发协议,并通过弹簧-质量-阻尼系统验证了方法的有效性。

Abstract

This study addresses the sliding mode control (SMC) for Takagi-Sugeno (T-S) fuzzy semi-Markov switching systems (FSMSSs) characterized by multizone probabilistic time-varying delays. The dynamic behaviors of FSMSSs are captured through a comprehensive semi-Markov process framework that accommodates arbitrary switching scenarios. In addition, a tailored SMC law that ensures the system’s trajectory reaches and maintains a preset sliding surface over a specified finite time is applied. To address the challenges of communication load, a novel multizone probabilistic dynamic event-triggered protocol is introduced, leveraging the time-varying nature of transmission delays and incorporating two adjustable internal dynamic variables. The establishment of sufficient conditions for ensuring the stochastic finite-time stability of the closed-loop system is achieved through an effective Lyapunov functional methodology. Finally, the validity and superiority of the proposed methodologies is demonstrated by a mass-spring-damper mechanical system.

控制理论模糊系统滑模控制事件触发协议