A unified approach for parametric robust control of electromagnetic levitation system

P. Sarkar, Ravitesh Kumar, A. Mondal, Subrata Banerjee
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引用次数: 1

Abstract

This paper proposes a unified approach for robust controller (RC) design for Electro-magnetic Levitation System (EMLS) in delta domain. Dynamic systems modelling with delta operator provides a unified framework in rapprochement between discrete-time dynamic models and its continuous counterpart at fast sampling. This property is utilised to design different classical control schemes such as PI, PD and PID in delta domain for EMLS. Generally, the behaviour of the EMLS is nonlinear and it is unstable in nature. Due to the above properties it is first linearised. The controllers are designed in delta domain such that both the physical systems of EMLS (voltage and current controlled systems) become robust subject to all parameter variations and uncertainties. The simulation results exhibit the usefulness of the proposed controller design methodology.
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电磁悬浮系统参数鲁棒控制的统一方法
提出了一种统一的delta域电磁悬浮系统鲁棒控制器设计方法。用delta算子对动态系统进行建模,为离散时间动态模型和连续时间动态模型之间的快速采样提供了一个统一的框架。利用这一特性设计了delta域的PI、PD和PID等经典控制方案。一般来说,EMLS的行为是非线性的,本质上是不稳定的。由于上述性质,它首先是线性化的。控制器设计在delta域中,使得EMLS的物理系统(电压和电流控制系统)对所有参数变化和不确定性都具有鲁棒性。仿真结果表明了所提出的控制器设计方法的有效性。
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