Active Disturbance Rejection Adaptive Command Filtered Control of Electrohydraulic Actuator

DEStech Transactions on Engineering and Technology Research Pub Date : 2020-10-06 DOI:10.12783/dtetr/mcaee2020/35067

Ning Ye, J. Song, Gao Xiying

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Abstract

This paper proposed an active disturbance rejection adaptive command filtered control (CFC) scheme for tracking control of electrohydraulic actuator subjected to both parametric uncertainties and uncertain nonlinearities. The proposed controller is developed by combining extended observer technology and adaptive CFC backstepping method. The adaptive law is used to deal with parameter uncertainty; matching uncertainties and mismatching uncertainties are estimated by two extended state observers and compensated in a feedforward way. Parameter self-adaptation can greatly reduce parameter uncertainty and ease the estimation burden of the extended state observer. CFC technology is employed to deal with the inherently complex explosion problem of classic backstepping technology. Therefore, the design of the controller avoids high-gain feedback, reduces tracking errors, and decreases online calculation burden. The proposed controller can guarantee asymptotic stability and expected control performance. Comparative simulation results are acquired to verify the tracking performance of the proposed approach.

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电液执行器自抗扰自适应命令滤波控制

针对参数不确定和不确定非线性的电液执行器跟踪控制问题，提出了一种自抗扰自适应命令滤波控制方案。该控制器将扩展观测器技术与自适应CFC反演方法相结合。采用自适应律处理参数的不确定性;匹配不确定性和失匹配不确定性由两个扩展状态观测器估计，并以前馈方式补偿。参数自适应可以大大降低参数的不确定性，减轻扩展状态观测器的估计负担。采用CFC技术解决了传统退步技术固有的复杂爆炸问题。因此，控制器的设计避免了高增益反馈，减少了跟踪误差，减少了在线计算负担。该控制器能保证系统的渐近稳定性和预期的控制性能。对比仿真结果验证了所提方法的跟踪性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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DEStech Transactions on Engineering and Technology Research

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