Hydraulic Servo System Control Using Differential Evolution Based Robust Structure Specified H∞ Controller

Q4 Computer Science
D. Maneetham
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引用次数: 0

Abstract

Synthesis of an H∞ controller usually produces a very high order of controller, and one which is much higher than the plant, causing difficulty in implementing the controller in practical applications, especially those using small microcontrollers. However, systems are always subject to disturbances and un-modeled dynamics. This research introduces modeling and simulations of lower order structures, specifically an H∞ robust controller, to control a hydraulic servo system. A low order controller shortens the gap between the complicated H∞ controllers to the practical embedded control system application. Simulation results show that the proposed controller gives satisfactory results with small settling times and no steady state error. The resulting controller also produced better responses than that of a full order H∞ controller generated using the Matlab Robust Control Toolbox.
基于微分进化的鲁棒结构指定H∞控制器在液压伺服系统控制中的应用
H∞控制器的综合通常会产生非常高阶的控制器,并且其阶数远高于对象,这导致控制器在实际应用中难以实现,尤其是在使用小型微控制器的应用中。然而,系统总是受到扰动和未建模的动力学的影响。本文介绍了用于控制液压伺服系统的低阶结构,特别是H∞鲁棒控制器的建模和仿真。低阶控制器缩短了复杂H∞控制器与实际嵌入式控制系统应用之间的差距。仿真结果表明,该控制器具有稳定时间小、无稳态误差等优点,取得了满意的控制效果。所得到的控制器也比使用Matlab鲁棒控制工具箱生成的全阶H∞控制器产生更好的响应。
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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来源期刊
International Journal of Automation and Smart Technology
International Journal of Automation and Smart Technology Engineering-Electrical and Electronic Engineering
CiteScore
0.70
自引率
0.00%
发文量
0
审稿时长
16 weeks
期刊介绍: International Journal of Automation and Smart Technology (AUSMT) is a peer-reviewed, open-access journal devoted to publishing research papers in the fields of automation and smart technology. Currently, the journal is abstracted in Scopus, INSPEC and DOAJ (Directory of Open Access Journals). The research areas of the journal include but are not limited to the fields of mechatronics, automation, ambient Intelligence, sensor networks, human-computer interfaces, and robotics. These technologies should be developed with the major purpose to increase the quality of life as well as to work towards environmental, economic and social sustainability for future generations. AUSMT endeavors to provide a worldwide forum for the dynamic exchange of ideas and findings from research of different disciplines from around the world. Also, AUSMT actively seeks to encourage interaction and cooperation between academia and industry along the fields of automation and smart technology. For the aforementioned purposes, AUSMT maps out 5 areas of interests. Each of them represents a pillar for better future life: - Intelligent Automation Technology. - Ambient Intelligence, Context Awareness, and Sensor Networks. - Human-Computer Interface. - Optomechatronic Modules and Systems. - Robotics, Intelligent Devices and Systems.
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