A Global Nonlinear Instrumental Variable Method for Identification of Continuous-Time Systems with Unknown Time Delays
| Authors: | Zi-Jiang Yang, Kyushu University, Japan
Iemura Hideto, Kyushu University, Japan
Kanae Shunshoku, Kyushu University, Japan
Wada Kiyoshi, Kyushu University, Japan |
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| Topic: | 1.1 Modelling, Identification & Signal Processing |
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| Session: | Identification of Continuous Time Systems |
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| Keywords: | Identification, continuous-time system, time-delay, instrumental variable method, stochastic approximation with convolution smoothing |
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Abstract
This paper considers the identification problem of continuous-time systems with unknown time delays from sampled input-output data. An iterative global separable nonlinear least-squares (GSEPNLS) method which estimates the time delays and transfer function parameters separably is derived, by using stochastic global-optimization technique to avoid convergence to a local minimum. Futhermore, the GSEPNLS method is modified to a novel global separable nonlinear instrumental variable (GSEPNIV) method to yield consistent estimates if the algorithm converges to the global minimum. Simulational results show that the proposed method works quite well.
