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Main Authors: Inwood, Amy S., Smith, Peter J., Martin, Philippa A., Woodward, Graeme K.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.10476
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author Inwood, Amy S.
Smith, Peter J.
Martin, Philippa A.
Woodward, Graeme K.
author_facet Inwood, Amy S.
Smith, Peter J.
Martin, Philippa A.
Woodward, Graeme K.
contents A key challenge facing reconfigurable intelligent surfaces (RISs) is channel state information acquisition. Passive RISs cannot generate pilot signals or process data, making rapid temporal changes in the channel problematic. Additionally, the impact of spatial changes in RIS channels has not been thoroughly investigated. Therefore, in this work, we use second order statistics to investigate the spatio-temporal behaviour of a single-user (SU) RIS system. Assuming a line-of-sight (LoS) RIS to base station (BS) link, we derive an exact expression for the level crossing rate (LCR) of the RIS link (user equipment (UE)-RIS-BS path) and propose a numerically stable approximation for the LCR of the global UE-BS channel. Each LCR expression attained is then utilised to find the corresponding average fade duration (AFD). The temporal signal-to-noise ratio (SNR) correlation is also derived assuming an LoS RIS-BS link. Assuming a Ricean RIS-BS link, expressions for the spatial correlation matrix of the global channel and the mean SNR loss due to channel ageing are derived. All of the analyses are verified by simulation, and the impact of key system parameters is investigated. We show that the use of an RIS does not significantly amplify changes in the channel.
format Preprint
id arxiv_https___arxiv_org_abs_2508_10476
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Second Order Channel Statistics: An Analysis for Optimal Single-user RIS Systems
Inwood, Amy S.
Smith, Peter J.
Martin, Philippa A.
Woodward, Graeme K.
Signal Processing
A key challenge facing reconfigurable intelligent surfaces (RISs) is channel state information acquisition. Passive RISs cannot generate pilot signals or process data, making rapid temporal changes in the channel problematic. Additionally, the impact of spatial changes in RIS channels has not been thoroughly investigated. Therefore, in this work, we use second order statistics to investigate the spatio-temporal behaviour of a single-user (SU) RIS system. Assuming a line-of-sight (LoS) RIS to base station (BS) link, we derive an exact expression for the level crossing rate (LCR) of the RIS link (user equipment (UE)-RIS-BS path) and propose a numerically stable approximation for the LCR of the global UE-BS channel. Each LCR expression attained is then utilised to find the corresponding average fade duration (AFD). The temporal signal-to-noise ratio (SNR) correlation is also derived assuming an LoS RIS-BS link. Assuming a Ricean RIS-BS link, expressions for the spatial correlation matrix of the global channel and the mean SNR loss due to channel ageing are derived. All of the analyses are verified by simulation, and the impact of key system parameters is investigated. We show that the use of an RIS does not significantly amplify changes in the channel.
title Second Order Channel Statistics: An Analysis for Optimal Single-user RIS Systems
topic Signal Processing
url https://arxiv.org/abs/2508.10476