Discrete-time H∞ control of a class of underactuated electromechanical systems

2016 6th International Conference on Intelligent and Advanced Systems (ICIAS) Pub Date : 2016-08-01 DOI:10.1109/ICIAS.2016.7824111

Y. Hafeez, S. S. A. Ali

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Abstract

This paper focuses on the design and performance of sampled-data robust control of a class of continuous-time underactuated electromechanical systems. The control law is designed on the philosophy based on stabilization of discrete-time equivalent model of a continuous-time system which can be broadly classified into sampled-data stabilization of a class of underactuated linear systems with a time-varying actuation characteristics. The system can be actuated by a short duration pulse in a fixed interval of time. The system is discretized for complete actuation cycle to get an equivalent discrete-time model of the continuous-time system. The equivalent model is developed by considering a complete actuation cycle as a single discrete step. The continuous-time system is fully actuated in this interval and unactuated otherwise. The state feedback control law is designed on the basis of fully actuated, time invariant exact discrete-time equivalent model of the continuous-time system. The simulations show that proposed controller achieved the desired orientation control.

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一类欠驱动机电系统的离散H∞控制

研究了一类连续欠驱动机电系统的采样数据鲁棒控制的设计与性能。控制律的设计思想是基于连续系统的离散时间等效模型的镇定，该系统可大致归类为一类具有时变驱动特性的欠驱动线性系统的采样数据镇定。该系统可以在固定的时间间隔内由短脉冲驱动。对整个驱动周期进行离散化处理，得到连续系统的等效离散模型。将一个完整的驱动周期视为一个离散的步骤，建立了等效模型。连续时间系统在这段时间内完全被驱动，在其他时间内不被驱动。基于连续系统的全驱动时不变精确离散等效模型，设计了状态反馈控制律。仿真结果表明，该控制器达到了预期的方向控制效果。

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

2016 6th International Conference on Intelligent and Advanced Systems (ICIAS)

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