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Main Authors: Fang, Xiaozhu, Xu, Yu, Chen, Tianshi
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.12629
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author Fang, Xiaozhu
Xu, Yu
Chen, Tianshi
author_facet Fang, Xiaozhu
Xu, Yu
Chen, Tianshi
contents Frequency response function (FRF) estimation is a classical subject in system identification. In the past two decades, there have been remarkable advances in developing local methods for this subject, e.g., the local polynomial method, local rational method, and iterative local rational method. The recent concentrations for local methods are two issues: the model order selection and the identification of lightly damped systems. To address these two issues, we propose a new local method called local Gaussian process regression (LGPR). We show that the frequency response function locally is either analytic or resonant, and this prior knowledge can be embedded into a kernel-based regularized estimate through a dot-product kernel plus a resonance kernel induced by a second-order resonant system. The LGPR provides a new route to tackle the aforementioned issues. In the numerical simulations, the LGPR shows the best FRF estimation accuracy compared with the existing local methods, and moreover, the LGPR is more robust with respect to sample size and noise level.
format Preprint
id arxiv_https___arxiv_org_abs_2405_12629
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A Local Gaussian Process Regression Approach to Frequency Response Function Estimation
Fang, Xiaozhu
Xu, Yu
Chen, Tianshi
Systems and Control
Frequency response function (FRF) estimation is a classical subject in system identification. In the past two decades, there have been remarkable advances in developing local methods for this subject, e.g., the local polynomial method, local rational method, and iterative local rational method. The recent concentrations for local methods are two issues: the model order selection and the identification of lightly damped systems. To address these two issues, we propose a new local method called local Gaussian process regression (LGPR). We show that the frequency response function locally is either analytic or resonant, and this prior knowledge can be embedded into a kernel-based regularized estimate through a dot-product kernel plus a resonance kernel induced by a second-order resonant system. The LGPR provides a new route to tackle the aforementioned issues. In the numerical simulations, the LGPR shows the best FRF estimation accuracy compared with the existing local methods, and moreover, the LGPR is more robust with respect to sample size and noise level.
title A Local Gaussian Process Regression Approach to Frequency Response Function Estimation
topic Systems and Control
url https://arxiv.org/abs/2405.12629