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Main Authors: Zhuoxuan, Ju, Milos, Doroslovacki
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.17112
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author Zhuoxuan, Ju
Milos, Doroslovacki
author_facet Zhuoxuan, Ju
Milos, Doroslovacki
contents In communication networks, channel estimation and user localization are challenging problems in harsh environments or signal-blocked areas. This paper introduces a novel approach to minimize the Mean Squared Error (MSE) in channel estimation between mobile users and rectangular Reconfigurable Intelligent Surfaces (RIS) within wireless communication systems. Meanwhile, the user localization is realized based on the estimated Channel State Information (CSI). In this paper, we assume a non-linear, user's position-dependent system model, for a user with high mobility, an RIS with multiple elements, and a base station (BS) with multiple antennas. After that, we apply the Kalman Filtering (KF) like algorithms to reduce MSE in estimating parameters of this time-variant channel model. Additionally, we propose a Non-Circular Noise Kalman Filter (NCNKF) to address scenarios with non-circular complex state-space noise. Furthermore, we apply the Discrete Space Fourier Transform (DSFT) method, combined with the interpolation techniques to decrease the Root Mean Squared Error (RMSE) for the user localization based on the estimated CSI. Finally, we extend the single-user case into the multi-user situation. Results show that KF can achieve lower MSE in estimating the channel than other known approaches, while the NCNKF algorithm has better performance in non-circular state-space noise scenarios. At the same time, the DSFT interpolation outperforms the other approaches with lower complexity. The study concludes with numerical comparisons and an in-depth discussion of the performance improvements enabled by our approaches.
format Preprint
id arxiv_https___arxiv_org_abs_2512_17112
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Kalman Filter-based Mobile User-RIS Channel Estimation and User Localization
Zhuoxuan, Ju
Milos, Doroslovacki
Signal Processing
In communication networks, channel estimation and user localization are challenging problems in harsh environments or signal-blocked areas. This paper introduces a novel approach to minimize the Mean Squared Error (MSE) in channel estimation between mobile users and rectangular Reconfigurable Intelligent Surfaces (RIS) within wireless communication systems. Meanwhile, the user localization is realized based on the estimated Channel State Information (CSI). In this paper, we assume a non-linear, user's position-dependent system model, for a user with high mobility, an RIS with multiple elements, and a base station (BS) with multiple antennas. After that, we apply the Kalman Filtering (KF) like algorithms to reduce MSE in estimating parameters of this time-variant channel model. Additionally, we propose a Non-Circular Noise Kalman Filter (NCNKF) to address scenarios with non-circular complex state-space noise. Furthermore, we apply the Discrete Space Fourier Transform (DSFT) method, combined with the interpolation techniques to decrease the Root Mean Squared Error (RMSE) for the user localization based on the estimated CSI. Finally, we extend the single-user case into the multi-user situation. Results show that KF can achieve lower MSE in estimating the channel than other known approaches, while the NCNKF algorithm has better performance in non-circular state-space noise scenarios. At the same time, the DSFT interpolation outperforms the other approaches with lower complexity. The study concludes with numerical comparisons and an in-depth discussion of the performance improvements enabled by our approaches.
title Kalman Filter-based Mobile User-RIS Channel Estimation and User Localization
topic Signal Processing
url https://arxiv.org/abs/2512.17112