Position Control of Electro-hydraulic Actuator System Using Fuzzy Logic Controller Optimized by Particle Swarm Optimization 被引量：17

Position Control of Electro-hydraulic Actuator System Using Fuzzy Logic Controller Optimized by Particle Swarm Optimization

原文传递

导出

摘要 The position control system of an electro-hydraulic actuator system （EHAS） is investigated in this paper. The EHAS is developed by taking into consideration the nonlinearities of the system： the friction and the internal leakage. A variable load that simulates a realistic load in robotic excavator is taken as the trajectory reference. A method of control strategy that is implemented by employing a fuzzy logic controller （FLC） whose parameters are optimized using particle swarm optimization （PSO） is proposed. The scaling factors of the fuzzy inference system are tuned to obtain the optimal values which yield the best system performance. The simulation results show that the FLC is able to track the trajectory reference accurately for a range of values of orifice opening. Beyond that range, the orifice opening may introduce chattering, which the FLC alone is not sufficient to overcome. The PSO optimized FLC can reduce the chattering significantly. This result justifies the implementation of the proposed method in position control of EHAS. The position control system of an electro-hydraulic actuator system （EHAS） is investigated in this paper. The EHAS is developed by taking into consideration the nonlinearities of the system： the friction and the internal leakage. A variable load that simulates a realistic load in robotic excavator is taken as the trajectory reference. A method of control strategy that is implemented by employing a fuzzy logic controller （FLC） whose parameters are optimized using particle swarm optimization （PSO） is proposed. The scaling factors of the fuzzy inference system are tuned to obtain the optimal values which yield the best system performance. The simulation results show that the FLC is able to track the trajectory reference accurately for a range of values of orifice opening. Beyond that range, the orifice opening may introduce chattering, which the FLC alone is not sufficient to overcome. The PSO optimized FLC can reduce the chattering significantly. This result justifies the implementation of the proposed method in position control of EHAS.

作者 Daniel M. Wonohadidjojo Ganesh Kothapalli Mohammed Y. Hassan

机构地区 School of Engineering University of Technology Adjunct Academic

出处《International Journal of Automation and computing》 EI CSCD 2013年第3期181-193,共13页 国际自动化与计算杂志（英文版）

关键词 Position control electro-hydraulic actuator fuzzy logic controller particle swarm optimization （PSO） nonlinear. Position control, electro-hydraulic actuator, fuzzy logic controller, particle swarm optimization （PSO）, nonlinear.

分类号 TP273.4 [自动化与计算机技术—检测技术与自动化装置] TP18 [自动化与计算机技术—控制理论与控制工程]

引文网络
相关文献

参考文献27

1N. H. Quang. Robust Low Level Control of Robotic Excavation, Ph. D. dissertation, University of Sydney, Australia, 2000.
2Q. P. Ha, Q. H. Nguyen, D. C. Rye, H. F. DurrantWhyte. Fuzzy sliding-mode controllers with applications. IEEE Transactions on Industrial Electronics, vol. 48, no. 1, pp. 38-46, 2001.
3Q. P. Ha, Q. H. Nguyen, D. C. Rye, H. F. Durrant-Whyte. Impedance control of a hydraulically actuated robotic excavator. Automation in Construction, vol. 9, no. 5-6, pp.421- 435,2000.
4Zulfatman, M. F. Rahmat. Application of self-tuning fuzzy PID controller on industrial hydraulic actuator using system identification approach. International Journal on Smart Sensing and Intelligent Systems, vol. 2, no. 2, pp.246-261, 2009.
5M. Kalyoncu, M. Haydim. Mathematical modelling and fuzzy logic based position control of an electrohydraulic servosystem with internal leakage. Mechatronics, vol. 19, no. 6, pp.847-858, 2009.
6M. M. Lee, H. M. Kim, S. H. Park, J. S. Kim. A position control of electro-hydraulic actuator systems using the adaptive control scheme. In Proceedings of the 7th Asian Control Conference, IEEE, Hong Kong, China, pp.21-26, 2009.
7B. Li, J. Yan, G. Guo, Y. H. Zeng, W. X. Luo. High performance control of hydraulic excavator based on fuzzy-PI soft-switch controller. In Proceedings of the IEEE International Conference on Computer Science and Automation Engineering, IEEE, Shanghai, China, pp.676-679, 2011.
8J. Yan, B. Li, Q. Z. 'lU, G. Guo, Y. H. Zeng. Automatization of excavator and study of its autocontrol. In Proceedings of the 3rd International Conference on Measuring Technology and Mechatronics Automation, IEEE, Shanghai, China, pp.604-609, 2011.
9M. F. Rahmat, Zulfatman, A. R. Husain, K. Ishaque, Y. M. Sam, R. Ghazali, S. Md Rozali. Modeling and controller design of an industrial hydraulic actuator system in the presence of friction and internal leakage. International Journal of Physical Sciences, vol. 6, no. 4, pp.3502-3517, 2011.
10S. Tafazoli, C. W. De Silva, P. D. Lawrence. Tracking control of an electrohydraulic manipulator in the presence of friction. IEEE Transactions on Control Systems Technology, vol. 6, no. 3, pp.401-411, 1998.

同被引文献137

1许文波,曾广商.控制存在时滞的变结构控制及其在全燃气伺服系统中的应用[J].导弹与航天运载技术,2006(6):10-15. 被引量：1
2Nassim Laouti,Sami Othman,Mazen Alamir,Nida Sheibat-Othman.Combination of Model-based Observer and Support Vector Machines for Fault Detection of Wind Turbines[J].International Journal of Automation and computing,2014,11(3):274-287. 被引量：11
3Jessica Davies,Roger Dixon,Roger M.Goodall,Thomas Stefen.Multi-agent Control of High Redundancy Actuation[J].International Journal of Automation and computing,2014,11(1):1-9. 被引量：2
4Zhong-Da Tian,Xian-Wen Gao,Kun Li.A Hybrid Time-delay Prediction Method for Networked Control System[J].International Journal of Automation and computing,2014,11(1):19-24. 被引量：8
5曾广商,赵守军,张晓莎.我国载人运载火箭伺服机构技术发展分析[J].载人航天,2013,19(4):3-10. 被引量：43
6张大庆,赵喻明,刘心昊,李铁辉.液压挖掘机四自由度自适应控制[J].华中科技大学学报（自然科学版）,2013,41(S1):455-458. 被引量：4
7BAI Yanhong,QUAN Long.New Method to Improve Dynamic Stiffness of Electro-hydraulic Servo Systems[J].Chinese Journal of Mechanical Engineering,2013,26(5):997-1005. 被引量：9
8史岩,祁力钧,傅泽田,谭彧,张小栓.压力式变量喷雾系统建模与仿真[J].农业工程学报,2004,20(5):118-121. 被引量：47
9王万章,洪添胜,李捷,张富贵,陆永超.果树农药精确喷雾技术[J].农业工程学报,2004,20(6):98-101. 被引量：79
10曾广商,沈卫国,石立,张晓莎.高可靠三冗余伺服机构系统[J].航天控制,2005,23(1):35-40. 被引量：29

引证文献17

1于双双,王铁宁,可荣博,李宁.基于改进PSO的装备维修器材调剂供应决策[J].计算机工程与应用,2015,51(22):258-266. 被引量：1
2喜冠南,吴楝华,孙春亚,李健,徐加辉.运用PID算法的电液伺服位置控制系统实验[J].现代制造工程,2016(6):153-156. 被引量：3
3Salim Ziani.New Time-varying Fuzzy Sets Based on a PSO Midpoint of the Universe of Discourse[J].International Journal of Automation and computing,2016,13(4):392-400.
4张华,郑加强.4WD型农药喷雾机液压四驱底盘直行同步控制方法比较及验证[J].农业工程学报,2016,32(23):43-50. 被引量：15
5张华,郑加强.柔性喷雾机底盘电液作动器的模糊PID控制[J].南京林业大学学报（自然科学版）,2017,41(1):163-169. 被引量：1
6丁问司,刘坤,丁云柯.阀控非对称伺服缸基于粒子群优化的模糊PID控制器研究[J].液压与气动,2017,41(9):17-23. 被引量：14
7Guo-Han Lin,Jing Zhang,Zhao-Hua Liu.Hybrid Particle Swarm Optimization with Differential Evolution for Numerical and Engineering Optimization[J].International Journal of Automation and computing,2018,15(1):103-114. 被引量：3
8马万鹏,马吉胜,曹立军.某火箭炮高低控制目标自动瞄准优化仿真研究[J].计算机仿真,2018,35(5):22-26. 被引量：1
9闫九祥,赵永国,王亚丽,李倩,陈铁.双履带机器人电液行走控制系统建模与仿真[J].机床与液压,2019,47(19):120-124. 被引量：4
10王向才.一种用于液压伺服系统位置跟踪的混合模型预测控制器设计[J].机床与液压,2020,48(8):132-136. 被引量：7

二级引证文献58

1田中大,张超,李树江,王艳红,沙毅.基于相空间重构与最小二乘支持向量机的时延预测[J].电子学报,2017,45(5):1044-1051. 被引量：17
2王金武,唐汉,沈红光,白海超,那明君.高地隙折腰式水田多功能动力底盘设计与试验[J].农业工程学报,2017,33(16):32-40. 被引量：18
3翟红生.基于PSO的系统可变约束优化求解与仿真[J].河南工程学院学报（自然科学版）,2017,29(3):60-64.
4解家顺,郭彦青,姚竹亭,王超超.基于前馈控制的高速大行程圆弧滑轨位置控制[J].工程设计学报,2018,25(1):62-70. 被引量：1
5孙勇飞,吴崇友,薛臻,石磊,张玉同,黄铭森.4 MZ-3指刷式采棉机驱动系统的设计[J].农机化研究,2018,40(9):99-103. 被引量：5
6瞿济伟,郭康权,李翊宁,宋树杰,高华,周伟.农用柔性底盘模式切换控制参数试验与优化[J].农业机械学报,2018,49(9):346-352. 被引量：6
7周天文,刘勇,邹本涛,周兴宇.自走牵引式电动三轮喷药机的设计[J].机械与电子,2017,35(9):38-40. 被引量：1
8毛尾,纪朱珂,韦海利,彭熙伟.电液比例伺服系统模糊PID复合控制应用研究[J].液压与气动,2019,43(1):95-99. 被引量：46
9闫九祥,赵永国,王亚丽,李倩,陈铁.双履带机器人电液行走控制系统建模与仿真[J].机床与液压,2019,47(19):120-124. 被引量：4
10贺伟,黄家海,郝惠敏,权龙.变排量非对称轴向柱塞泵动态特性分析[J].液压与气动,2019,43(10):20-25. 被引量：17

1ZHANG Cheng-pu XIAO Ju-liang.Research and Application of an Electro-hydraulic Synchronous Control System for Bridge Lifting[J].International Journal of Plant Engineering and Management,2009,14(1):1-7. 被引量：2
2the Secretariat of China Hydraulics Pneumatics & Seals Association.The Information for the Fifth International Symposium on Electro-hydraulic Power Transmission and Control Technology[J].机床与液压,2014,42(6):140-140.
3Hassan Mohammed Yousif,Kothapalli Ganesh.Interval Type-2 fuzzy position control of electro-hydraulic actuated robotic excavator[J].International Journal of Mining Science and Technology,2012,22(3):437-445. 被引量：3
4于忠成.手机支付——群雄逐鹿正当时[J].信息与电脑,2009,21(9):32-34.
5杨志成.浅谈ZY电动液压转换系统[J].魅力中国,2013(22):257-258.
6具有安装压力传感器的引线框架的电动液压歧管组件[J].传动技术,2006,20(2):29-29.
7薛春阳,程现远,孔岩.和利时自容式电液执行器与美国Xpac电液执行器对比分析[J].中国电子商务,2011(10):208-209.
8暴丽,李艳枝.智能型阀门电液执行器的动态特性分析[J].热电技术,2004(3):32-34.
9李明祥.企业内网信息安全探讨[J].消费电子,2013(22):99-99.
10马良玉,刘婷.不同负荷低加内部泄漏故障神经网络诊断研究[J].计算机测量与控制,2016,24(2):57-60. 被引量：3

International Journal of Automation and computing

2013年第3期

浏览历史

内容加载中请稍等...

Position Control of Electro-hydraulic Actuator System Using Fuzzy Logic Controller Optimized by Particle Swarm Optimization 被引量：17

参考文献27

同被引文献137

引证文献17

二级引证文献58

相关作者

相关机构

相关主题

浏览历史