Direct Adaptive Inverse Control via Fractional Least Mean Square

2021 Global Congress on Electrical Engineering (GC-ElecEng) Pub Date : 2021-12-10 DOI:10.1109/GC-ElecEng52322.2021.9788229
Rodrigo Possidônio Noronha
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Abstract

This work aims to perform the performance analysis of the Fractional Least Mean Square (FLMS) algorithm in the Direct Adaptive Inverse Control (DAIC) design, in terms of convergence speed and steady-state Mean Square Error (MSE), for the controller weight vector. The controller, obtained through inverse identification of the plant model, is based on a Finite Impulse Response (FIR) adaptive filter. To obtain non-conservative results, the performance analysis was performed in the presence of a sinusoidal reference signal and sinusoidal disturbance signal. As an increment of complexity to the DAIC design, the plant model is non-minimum phase.
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基于分数最小均方的直接自适应逆控制
本研究旨在对直接自适应逆控制(aic)设计中的分数阶最小均方(FLMS)算法在控制器权向量的收敛速度和稳态均方误差(MSE)方面进行性能分析。该控制器是基于有限脉冲响应(FIR)自适应滤波器,通过对对象模型进行逆辨识得到的。为了获得非保守结果,在正弦参考信号和正弦干扰信号存在的情况下进行了性能分析。工厂模型是一个非最小阶段,是增加系统设计复杂性的一种方法。
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2021 Global Congress on Electrical Engineering (GC-ElecEng)
2021 Global Congress on Electrical Engineering (GC-ElecEng)
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