[1]祝自豪,李维嘉,李洪果.基于滑模控制的高速大惯性电液位置伺服系统研究[J].机械与电子,2016,(09):55-58,61.
 ZHU Zihao,LI Weijia,LI Hongguo.Electro-hydraulic Position Servo System with High Speed and Large Inertia Using Sliding Mode Control[J].Machinery & Electronics,2016,(09):55-58,61.
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基于滑模控制的高速大惯性电液位置伺服系统研究
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《机械与电子》[ISSN:1001-2257/CN:52-1052/TH]

卷:
期数:
2016年09期
页码:
55-58,61
栏目:
自动控制与检测
出版日期:
2016-09-25

文章信息/Info

Title:
Electro-hydraulic Position Servo System with High Speed and Large Inertia Using Sliding Mode Control
作者:
祝自豪1李维嘉1李洪果2
(1.华中科技大学船舶与海洋工程学院,湖北 武汉 430074; 2.中船重工集团第713研究所,河南 郑州 450015)
Author(s):
ZHU Zihao1LI Weijia1LI Hongguo2
(1.School of Naval Architecture and Ocean Engineering, Huazhong University of Science and Technology, Wuhan 430074,China;2.The 713 Research Institute of China Shipbuilding Industry Corporation,Zhengzhou 450015,China)
关键词:
位置伺服系统大惯性滑模控制平稳
Keywords:
position servo systemlarge inertiasliding mode controlstability
分类号:
TH137;TP29
文献标志码:
A
摘要:
针对一个具有高速、控制精度要求高的大惯性电液位置伺服系统,通过理论分析和实验测试,确定了系统的主要特征参数,并建立了与实际系统相吻合的数学模型。根据系统自身的特性和控制指标的要求,采用了基于指数趋近律的滑模控制策略。在仿真实验验证控制方法有效性的基础上,将其应用到了实际系统。系统的测试结果表明,被控对象具有平稳的动态过程和理想的位置控制精度,性能达到了使用要求。
Abstract:
For a large inertia electro-hydraulic position servo control system with high speed and high accuracy requirements, main parameters are determined by combining theoretical analysis with experiments; subsequently the mathematical model suitable for the actual system is established. After analyzing the characteristics of the whole system and the requirements for control performance, the sliding-mode controller based on exponential approach law is designed. At last, the effectiveness of the control method is verified by simulation results, and this method is tested in the actual system. The experimental results illustrate that the system has the stable dynamic process and satisfactory position tracking, and meets the requirement of engineer application.

参考文献/References:

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备注/Memo

备注/Memo:
收稿日期:2016-05-13
作者简介:祝自豪(1990-),男,湖北武汉人,硕士研究生,研究方向为轮机工程及其自动化;李维嘉(1964-),男,河南郑州人,教授,博士研究生导师,研究方向为机电液智能控制系统、舰艇与飞行器仿真、水下机器人等。
更新日期/Last Update: 2016-09-25