首页 /研究 /Adaptive Practical Predefined-Time Control for Uncertain Teleoperation Systems With Input Saturation and Output Error Constraints
HRI

Adaptive Practical Predefined-Time Control for Uncertain Teleoperation Systems With Input Saturation and Output Error Constraints

Longnan Li, Zhengxiong Liu, Shaofan Guo, Zhiqiang Ma, Panfeng Huang

发表年份
2023
引用次数
64

摘要

In this article, the synchronization tracking control issue is investigated for uncertain teleoperation systems with input saturation and output error constraints. To this end, an adaptive practical predefined-time control scheme integrating backstepping recursive design, predefined time theory, prescribed performance function, and the antisaturation auxiliary system is developed for the first time. A fixed-time extended state observer is utilized to eliminate the negative influence of the lumped uncertainty, and the antisaturation auxiliary system is constructed to address the input saturation. In contrast to finite/fixed-time controllers, the upper bound of the convergence time can be obtained in advance by adjusting a single control parameter. The results indicate that the error signals can converge into a small region of the zero domain within a user-defined time and that the output error never violates the prescribed performance boundary. Simulations and experiments are performed on a teleoperation platform made up of two Phantom Touch robots to verify the effectiveness and practicality of the developed controller.

关键词

TeleoperationControl theory (sociology)BacksteppingComputer scienceTracking errorController (irrigation)Adaptive controlObserver (physics)Synchronization (alternating current)Control engineering

相关论文

查看 HRI 分类全部论文