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引用次数: 0
摘要
本文的主要动机是提出一种全局预定义时间滑模控制(PtSMC)策略,以稳定一类受到匹配和不匹配干扰的二阶系统。为此,本文提出了一种基于终端时间调节器的新型精确时间扰动观测器(DOB),它能在规定时间内精确估计扰动,有效防止系统状态因高增益和高估而逸散到无穷大。此外,还开发了一种带有 DOB 估计的新预定义时间滑动模式变量,以确保滑动模式阶段在预定义时间内收敛,从而对抗不匹配的干扰。与未采用 DOB 的控制器相比,所提出的基于 DOB 的技术可减轻因使用过高估计的增益而产生的颤振。此外,本文还引入了预定义时间达到定律,以保证全局预定义时间收敛。本文通过严格的 Lyapunov 分析,确定了所提控制器下受干扰二阶系统的稳定性。所提方法的新颖之处在于其全局预定义时间收敛性、减少振颤的特性以及对匹配和不匹配干扰的鲁棒性。最后,数值模拟和应用实例验证了所提方法的有效性。
Predefined-time sliding mode control based on exact time disturbance observer for second-order systems with matched and mismatched disturbances
This paper’s primary motivation is to present a globally predefined-time sliding mode control (PtSMC) strategy to stabilize a class of second-order systems subjected to matched and mismatched disturbances. To achieve this, the paper proposes a new exact time disturbance observer (DOB) based on a terminal time regulator, which accurately estimates the disturbances within a prescribed time, effectively preventing the system state from escaping to infinity due to high gains and overestimation. In addition, a new predefined-time sliding mode variable with the estimation of DOB is developed to ensure a predefined-time convergence on the sliding mode phase against mismatched disturbances. The proposed DOB-based technique can alleviate the chattering resulting from the use of an overestimated gain, in contrast to the controller without employing a DOB. Furthermore, a predefined-time reaching law is introduced to guarantee a global predefined-time convergence. This paper establishes the stability of the disturbed second-order system under the proposed controller through strict Lyapunov analysis. The novelty of the proposed method lies in its global predefined-time convergence, chattering-reduced properties and robustness against matched and mismatched disturbances. Finally, numerical simulations and application examples validate the proposed methodology’s effectiveness.
期刊介绍:
Transactions of the Institute of Measurement and Control is a fully peer-reviewed international journal. The journal covers all areas of applications in instrumentation and control. Its scope encompasses cutting-edge research and development, education and industrial applications.