Least square and Instrumental Variable system identification of ac servo position control system with fractional Gaussian noise

机译：具有分数高斯噪声的交流伺服位置控制系统的最小平方和仪器变量系统识别

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In this paper, the classical Least Square Estimator (LSE) and its improved version the Instrumental Variable (IV) estimator have been used for the identification of an ac servo motor position control system. The data for system identification has been collected from a practical test set-up for fixed command on the final angular position of the servo motor with varying level of velocity and acceleration. The measured data is corrupted then with externally induced random noise having a Gaussian distribution, commonly known as white Gaussian noise (wGn). Performance of the LSE and IV estimators are also compared for fractional Gaussian noise (fGn) which have heavy tails in its statistical distribution and are capable of modeling real world signals having spiky nature.

机译：在本文中，仪器变量（IV）估计器的经典最小二乘估计器（LSE）及其改进版本已被用于识别交流伺服电机位置控制系统。已经从伺服电机的最终角度位置的固定命令的实际测试设置中收集了系统识别数据，其速度和加速度不同。测量数据被损坏，然后突然引起具有高斯分布的随机噪声，通常称为白色高斯噪声（WGN）。还比较了LSE和IV估计器的性能，用于统计分布中具有重型尾部的分数高斯噪声（FGN），并能够建模具有尖峰性质的现实世界信号。

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《International Conference on Energy, Automation and Signal》|2011年||共6页
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Das Saptarshi; Kumar Abhishek; Pan Indranil; Acharya Anish; Das Shantanu; Gupta Amitava;
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中图分类 TK01-53;
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1/flt; supgt; amp; #x03B1; lt; /supgt; noise; ARX; fractional Gaussian noise; instrumental variable; servomotor position control; system identification;

机译：1 / f＆lt;sup＆gt;＆amp;＃x03b1;＆lt;/ sup＆gt;噪音;arx;分数高斯噪声;仪器变量;伺服电机位置控制;系统识别;

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Least square and Instrumental Variable system identification of ac servo position control system with fractional Gaussian noise

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