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Hauptverfasser: Zong, Xiaocun, Yang, Fan, Xu, Shenheng, Li, Maokun
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2510.14350
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author Zong, Xiaocun
Yang, Fan
Xu, Shenheng
Li, Maokun
author_facet Zong, Xiaocun
Yang, Fan
Xu, Shenheng
Li, Maokun
contents To address the issue of beam collapse resulting from instantaneous instability during switch transitions in beam tracking, this paper proposes a novel beam switching method based on a row-by-row switching code table. The paper first establishes an abstract model of the beam tracking application scenario and introduces the reconfigurable intelligent surface (RIS) employed in this paper. Subsequently, simulations are conducted to compare the conventional direct beam switching method with the proposed row-by-row switching code table approach, thereby elucidating the advantages and limitations of the new method. In parallel, a RIS hardware platform is constructed in a microwave anechoic chamber for experimental validation. Both simulation and experimental results show that, by incorporating intermediate state transitions, the approach achieves beam tracking without beam collapse while incurring no significant gain loss. Finally, the paper discusses the applicability scope and potential scenarios for the proposed method. This research provides valuable insights for applications in mobile communications and radar detection.
format Preprint
id arxiv_https___arxiv_org_abs_2510_14350
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Novel Beam Tracking Approach for Preventing Beam Collapse
Zong, Xiaocun
Yang, Fan
Xu, Shenheng
Li, Maokun
Applied Physics
To address the issue of beam collapse resulting from instantaneous instability during switch transitions in beam tracking, this paper proposes a novel beam switching method based on a row-by-row switching code table. The paper first establishes an abstract model of the beam tracking application scenario and introduces the reconfigurable intelligent surface (RIS) employed in this paper. Subsequently, simulations are conducted to compare the conventional direct beam switching method with the proposed row-by-row switching code table approach, thereby elucidating the advantages and limitations of the new method. In parallel, a RIS hardware platform is constructed in a microwave anechoic chamber for experimental validation. Both simulation and experimental results show that, by incorporating intermediate state transitions, the approach achieves beam tracking without beam collapse while incurring no significant gain loss. Finally, the paper discusses the applicability scope and potential scenarios for the proposed method. This research provides valuable insights for applications in mobile communications and radar detection.
title A Novel Beam Tracking Approach for Preventing Beam Collapse
topic Applied Physics
url https://arxiv.org/abs/2510.14350