Design of Multilevel Signals for Identifying the Best Linear Approximation of Nonlinear Systems

Wong H. K.; Schoukens J.; Godfrey K. R.

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Design of Multilevel Signals for Identifying the Best Linear Approximation of Nonlinear Systems

机译：识别非线性系统最佳线性逼近的多电平信号设计

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摘要

The best linear approximation (BLA) of a nonlinear system minimizes the difference between the actual output of the system and the modeled output in a least square sense. It depends on the power and amplitude distribution of the excitation sequences used to identify it. The theory of the BLA for Gaussian input sequences (including random phased multisines) has been widely studied. It has recently been shown that the BLA when using a binary input sequence is biased with respect to that obtained using a Gaussian input sequence, and expressions for this bias have been obtained. In this paper, it is shown that it is possible to design discrete multilevel input sequences to mimic Gaussianity as closely as possible, thus reducing the bias, by adjusting sequence levels and the probability of the sequence being at these levels. Their performance is compared with true Gaussian sequences in simulation experiments.

机译：非线性系统的最佳线性逼近（BLA）在最小二乘意义上将系统的实际输出与建模输出之间的差异最小化。它取决于用于识别它的激励序列的功率和幅度分布。高斯输入序列（包括随机相位多正弦）的BLA理论已得到广泛研究。最近已经显示出，当使用二进制输入序列时，BLA相对于使用高斯输入序列所获得的BLA是有偏差的，并且已经获得了针对该偏差的表达式。在本文中，显示了可以设计离散的多级输入序列来尽可能接近地模拟高斯性，从而通过调整序列级别和序列处于这些级别的概率来减少偏差。在仿真实验中，将它们的性能与真实的高斯序列进行了比较。

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来源
《Instrumentation and Measurement, IEEE Transactions on 》 |2013年第2期| p.519-524| 共6页
作者
Wong H. K.; Schoukens J.; Godfrey K. R.;
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作者单位

Department of Electrical Engineering, Vrije Universiteit Brussel, Brussels , Belgium;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Frequency domain analysis; Kernel; Least squares approximation; Linear approximation; Linear systems; Noise; Nonlinear systems; Linear approximation; multilevel systems; nonlinear systems; signal design; system identification;

机译：频域分析;核心;最小二乘近似;线性逼近;线性系统;噪声;非线性系统线性逼近;多级系统;非线性系统信号设计;系统识别;

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3. Method for identifying models of nonlinear systems using linear time periodic approximations [J] . Michael W. Sracic, Matthew S. Allen Mechanical systems and signal processing . 2011 ,第7期

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4. A practical procedure for identifying time-varying nonlinear systems using basis sequence approximations [C] . Ralston, J.C., Boashash, . 1996

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5. A new experimental method for nonlinear system identification based on linear time periodic approximations [D] . Sracic, Michael William 2011

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Design of Multilevel Signals for Identifying the Best Linear Approximation of Nonlinear Systems

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