A multiple-kernel LSSVR method for separable nonlinear system identification |
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Authors: | Yanning CAI Hongqiao WANG Xuemei YE and Qinggang FAN |
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Affiliation: | 1. Xi’an Research Institute of Hi-Tech, Xi’an Shannxi, 710025, China
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Abstract: | In some nonlinear dynamic systems, the state variables function usually can be separated from the control variables function, which brings much trouble to the identification of such systems. To well solve this problem, an improved least squares support vector regression (LSSVR) model with multiple-kernel is proposed and the model is applied to the nonlinear separable system identification. This method utilizes the excellent nonlinear mapping ability of Morlet wavelet kernel function and combines the state and control variables information into a kernel matrix. Using the composite wavelet kernel, the LSSVR includes two nonlinear functions, whose variables are the state variables and the control ones respectively, in this way, the regression function can gain better nonlinear mapping ability, and it can simulate almost any curve in quadratic continuous integral space. Then, they are used to identify the two functions in the separable nonlinear dynamic system. Simulation results show that the multiple-kernel LSSVR method can greatly improve the identification accuracy than the single kernel method, and the Morlet wavelet kernel is more efficient than the other kernels. |
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Keywords: | Least squares support vector regression Multiple-kernel learning Composite kernel Wavelet kernel System identification |
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