基于多重未建模动力学估计与补偿的电液伺服执行器自适应容错控制

Q3 Engineering 西北工业大学学报 Pub Date : 2023-02-01 DOI:10.1051/jnwpu/20234110018
Ting Li, Yeming Yao, Linhai Zhang, Yang Li, Xinmin Wang
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引用次数: 0

摘要

研究了多个未建模动力学影响下电液伺服执行器的内漏容错控制问题,提出了一种基于未建模动力学估计和补偿的自适应容错控制方案。将执行器模型分为两个子系统,分别构建扩展状态观测器来估计匹配和不匹配的未建模动力学。结合未建模动力学的估计结果,采用反步法设计了自适应容错控制器。其中,采用基于内泄漏故障参数在线自适应的控制器重构机制来适应故障,采用前馈补偿策略来抑制未建模动力学的影响。对所提方案进行了缸内严重泄漏情况下的半物理模拟试验。试验结果表明,当最大内泄漏流量达到10.53 L/min,约占负载流量的56.77%时,此时伺服阀开度接近最大值,所提方案仍能实现高精度位置跟踪控制,故障暂态和故障后稳态的最大位置跟踪误差均限制在给定位置的±1.5%以内。
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Adaptive fault-tolerant control for electro-hydraulic servo actuator based on multiple unmodeled dynamics estimation and compensation
The internal leakage fault-tolerant control problem of the electro-hydraulic servo actuator under the influence of multiple unmodeled dynamics is investigated in this paper, and an adaptive fault-tolerant control scheme based on unmodeled dynamics estimation and compensation is proposed. The model of the actuator is divided into two subsystems, which extended-state observers are respectively constructed to estimate the matched and mismatched unmodeled dynamics. Combined with the estimation results of the unmodeled dynamics, an adaptive fault-tolerant controller is designed by using the backstepping method. In which a controller reconfiguration mechanism based on internal leakage fault parameter online adaptation is used to accommodate the fault, and a feedforward compensation strategy is used to suppress the influence of unmodeled dynamics. Semi-physical simulation test of the proposed scheme is conducted under serious cylinder internal leakage. The test result shows that when the maximum internal leakage flow reaches 10.53 L/min, accounting for about 56.77% of the load flow, at the moment the opening of the servovalve is close to the maximum and the proposed scheme can still achieve high-precision position tracking control, where the maximum position tracking errors of fault transient and post-fault steady state are both limited within ±1.5% of the given position.
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来源期刊
西北工业大学学报
西北工业大学学报 Engineering-Engineering (all)
CiteScore
1.30
自引率
0.00%
发文量
6201
审稿时长
12 weeks
期刊介绍:
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