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Main Authors: Zheng, Xin, Guo, Lei
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.10695
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author Zheng, Xin
Guo, Lei
author_facet Zheng, Xin
Guo, Lei
contents It is well-known that saturated output observations are prevalent in various practical systems and that the $\ell_1$-norm is more robust than the $\ell_2$-norm-based parameter estimation. Unfortunately, adaptive identification based on both saturated observations and the $\ell_1$-optimization turns out to be a challenging nonlinear problem, and has rarely been explored in the literature. Motivated by this and the need to fit with the $\ell_1$-based index of prediction accuracy in, e.g., judicial sentencing prediction problems, we propose a two-step weighted $\ell_1$-based adaptive identification algorithm. Under certain excitation conditions much weaker than the traditional persistent excitation (PE) condition, we will establish the global convergence of both the parameter estimators and the adaptive predictors. It is worth noting that our results do not rely on the widely used independent and identically distributed (iid) assumptions on the system signals, and thus do not exclude applications to feedback control systems. We will demonstrate the advantages of our proposed new adaptive algorithm over the existing $\ell_2$-based ones, through both a numerical example and a real-data-based sentencing prediction problem.
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institution arXiv
publishDate 2024
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spellingShingle $L_1$-Based Adaptive Identification with Saturated Observations
Zheng, Xin
Guo, Lei
Systems and Control
It is well-known that saturated output observations are prevalent in various practical systems and that the $\ell_1$-norm is more robust than the $\ell_2$-norm-based parameter estimation. Unfortunately, adaptive identification based on both saturated observations and the $\ell_1$-optimization turns out to be a challenging nonlinear problem, and has rarely been explored in the literature. Motivated by this and the need to fit with the $\ell_1$-based index of prediction accuracy in, e.g., judicial sentencing prediction problems, we propose a two-step weighted $\ell_1$-based adaptive identification algorithm. Under certain excitation conditions much weaker than the traditional persistent excitation (PE) condition, we will establish the global convergence of both the parameter estimators and the adaptive predictors. It is worth noting that our results do not rely on the widely used independent and identically distributed (iid) assumptions on the system signals, and thus do not exclude applications to feedback control systems. We will demonstrate the advantages of our proposed new adaptive algorithm over the existing $\ell_2$-based ones, through both a numerical example and a real-data-based sentencing prediction problem.
title $L_1$-Based Adaptive Identification with Saturated Observations
topic Systems and Control
url https://arxiv.org/abs/2412.10695