Elimination of Initial undershoot of Non-minimum Phase System using Model Reference Adaptive Control

2021 IEEE Second International Conference on Control, Measurement and Instrumentation (CMI) Pub Date : 2021-01-08 DOI:10.1109/CMI50323.2021.9362946

M. Pal, R. K. Barai, G. Sarkar, Tamal Roy

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Abstract

Initial undershoot is an unavoidable and undesirable common phenomenon in the step response of the Non-minimum phase (NMP) system and it creates difficulties in tracking control of the NMP system. Odd and even number of right half-plane (RHP) zeros of transfer function model of the NMP system produce initial undershoot and overshoot respectively and it creates an obstacle in the tracking control of the NMP system. To overcome these difficulties, the Lyapunov-based Model Reference Adaptive Control (MRAC) has been suggested here and the novelty of this technique is that it not only nullifies undershoots and overshoots, but it also tracks the reference input trajectory simultaneously. Different SISO NMP systems have been considered for the verification of suggested control methodology and one benchmark two input two output (TITO) NMP system has been considered to strengthen its claim on the elimination of unacceptable initial undershoot of the NMP system in MATLAB simulation environment.

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用模型参考自适应控制消除非最小相位系统的初始欠冲

初始欠冲是非最小相位系统阶跃响应中不可避免的普遍现象，它给系统的跟踪控制带来了困难。NMP系统传递函数模型右半平面(RHP)零点的奇数和偶数分别产生初始过冲和过冲，给NMP系统的跟踪控制带来障碍。为了克服这些困难，本文提出了基于lyapunov的模型参考自适应控制(MRAC)，该技术的新颖之处在于它不仅可以消除欠冲和过冲，而且还可以同时跟踪参考输入轨迹。已经考虑了不同的SISO NMP系统来验证建议的控制方法，并且已经考虑了一个基准二输入二输出(TITO) NMP系统，以加强其在MATLAB仿真环境中消除NMP系统不可接受的初始不足的主张。

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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2021 IEEE Second International Conference on Control, Measurement and Instrumentation (CMI)

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