基于变死区补偿的模糊滑模电液比例伺服控制系统研究

Xiwei Peng; Yujiang Liu; Hanyu Chen; Yuxin Bai; Shiyi Wei

doi:10.15918/j.tbit1001-0645.2022.231

基于变死区补偿的模糊滑模电液比例伺服控制系统研究

Xiwei Peng, Yujiang Liu, Hanyu Chen, Yuxin Bai, Shiyi Wei

自动化学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Aiming at the error caused by spool dead zone and cylinder asymmetry in proportional valve-controlled asymmetric hydraulic cylinder control, a fuzzy sliding mode controller with variable dead zone compensation was designed, and the control accuracy and stability of this controller under no-load and negative load conditions were studied. The simulation results show that the sliding mode control method with variable dead-zone compensation can weaken the "flat top" phenomenon and lag caused by the dead-zone characteristics of the spool and the asymmetry of the cylinder. In no-load test, the maximum control error of general sliding mode control method with variable dead-zone compensation is ±5 mm, and that of fuzzy sliding mode control method with variable dead-zone compensation is ±2.5 mm. In the negative load test, due to adding the counterbalance valve, the shaking problem of the piston rod can be solved when it extends under the negative load of 20 kg.

投稿的翻译标题	A Fuzzy Sliding Mode Electro-Hydraulic Proportional Servo Control System Based on Variable Dead-Zone Compensation
源语言	繁体中文
页（从-至）	971-978
页数	8
期刊	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
卷	43
期	9
DOI	https://doi.org/10.15918/j.tbit1001-0645.2022.231
出版状态	已出版 - 9月 2023

关键词

dead-zone compensation
electro-hydraulic proportional servo system
fuzzy control
sliding mode control

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10.15918/j.tbit1001-0645.2022.231

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链接到 Scopus 的出版物

引用此

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title = "基于变死区补偿的模糊滑模电液比例伺服控制系统研究",

abstract = "Aiming at the error caused by spool dead zone and cylinder asymmetry in proportional valve-controlled asymmetric hydraulic cylinder control, a fuzzy sliding mode controller with variable dead zone compensation was designed, and the control accuracy and stability of this controller under no-load and negative load conditions were studied. The simulation results show that the sliding mode control method with variable dead-zone compensation can weaken the {"}flat top{"} phenomenon and lag caused by the dead-zone characteristics of the spool and the asymmetry of the cylinder. In no-load test, the maximum control error of general sliding mode control method with variable dead-zone compensation is ±5 mm, and that of fuzzy sliding mode control method with variable dead-zone compensation is ±2.5 mm. In the negative load test, due to adding the counterbalance valve, the shaking problem of the piston rod can be solved when it extends under the negative load of 20 kg.",

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AU - Liu, Yujiang

AU - Chen, Hanyu

AU - Bai, Yuxin

AU - Wei, Shiyi

PY - 2023/9

Y1 - 2023/9

N2 - Aiming at the error caused by spool dead zone and cylinder asymmetry in proportional valve-controlled asymmetric hydraulic cylinder control, a fuzzy sliding mode controller with variable dead zone compensation was designed, and the control accuracy and stability of this controller under no-load and negative load conditions were studied. The simulation results show that the sliding mode control method with variable dead-zone compensation can weaken the "flat top" phenomenon and lag caused by the dead-zone characteristics of the spool and the asymmetry of the cylinder. In no-load test, the maximum control error of general sliding mode control method with variable dead-zone compensation is ±5 mm, and that of fuzzy sliding mode control method with variable dead-zone compensation is ±2.5 mm. In the negative load test, due to adding the counterbalance valve, the shaking problem of the piston rod can be solved when it extends under the negative load of 20 kg.

AB - Aiming at the error caused by spool dead zone and cylinder asymmetry in proportional valve-controlled asymmetric hydraulic cylinder control, a fuzzy sliding mode controller with variable dead zone compensation was designed, and the control accuracy and stability of this controller under no-load and negative load conditions were studied. The simulation results show that the sliding mode control method with variable dead-zone compensation can weaken the "flat top" phenomenon and lag caused by the dead-zone characteristics of the spool and the asymmetry of the cylinder. In no-load test, the maximum control error of general sliding mode control method with variable dead-zone compensation is ±5 mm, and that of fuzzy sliding mode control method with variable dead-zone compensation is ±2.5 mm. In the negative load test, due to adding the counterbalance valve, the shaking problem of the piston rod can be solved when it extends under the negative load of 20 kg.

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KW - electro-hydraulic proportional servo system

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基于变死区补偿的模糊滑模电液比例伺服控制系统研究

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