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Main Authors: Zhu, Xusheng, Wong, Kai-Kit, Xu, Sai, Xu, Hao, Chen, Wen, Shin, Hyundong
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.22508
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author Zhu, Xusheng
Wong, Kai-Kit
Xu, Sai
Xu, Hao
Chen, Wen
Shin, Hyundong
author_facet Zhu, Xusheng
Wong, Kai-Kit
Xu, Sai
Xu, Hao
Chen, Wen
Shin, Hyundong
contents Fluid reconfigurable intelligent surfaces (FRIS) extend conventional reconfigurable intelligent surfaces (RIS) by adding spatial reconfigurability through switchable apertures, pattern-reconfigurable units, fluidic conductive materials, or movable surface elements. This article studies how FRIS can support index modulation (IM), where information bits select a surface configuration and the receiver detects the index from the induced receiver-side response. A key challenge is that many feasible FRIS layouts do not necessarily lead to many reliable spatial indices. After propagation, mutual coupling, hardware distortion, and receiver observation, different layouts may produce similar receiver-side responses and cause index-detection errors. To address this issue, we present a response-aware design view, in which FRIS spatial codebooks are selected according to response-domain separability rather than layout diversity alone. We also discuss actuation granularity as a practical design knob that balances spatial diversity, pilot overhead, coupling robustness, and hardware feasibility. The resulting workflow helps select compact, trainable, and controllable spatial-index codebooks from dense FRIS layouts, providing design guidance for future programmable wireless environments.
format Preprint
id arxiv_https___arxiv_org_abs_2605_22508
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Fluid RIS (FRIS)-Assisted Index Modulation for 6G Wireless Communications
Zhu, Xusheng
Wong, Kai-Kit
Xu, Sai
Xu, Hao
Chen, Wen
Shin, Hyundong
Information Theory
Fluid reconfigurable intelligent surfaces (FRIS) extend conventional reconfigurable intelligent surfaces (RIS) by adding spatial reconfigurability through switchable apertures, pattern-reconfigurable units, fluidic conductive materials, or movable surface elements. This article studies how FRIS can support index modulation (IM), where information bits select a surface configuration and the receiver detects the index from the induced receiver-side response. A key challenge is that many feasible FRIS layouts do not necessarily lead to many reliable spatial indices. After propagation, mutual coupling, hardware distortion, and receiver observation, different layouts may produce similar receiver-side responses and cause index-detection errors. To address this issue, we present a response-aware design view, in which FRIS spatial codebooks are selected according to response-domain separability rather than layout diversity alone. We also discuss actuation granularity as a practical design knob that balances spatial diversity, pilot overhead, coupling robustness, and hardware feasibility. The resulting workflow helps select compact, trainable, and controllable spatial-index codebooks from dense FRIS layouts, providing design guidance for future programmable wireless environments.
title Fluid RIS (FRIS)-Assisted Index Modulation for 6G Wireless Communications
topic Information Theory
url https://arxiv.org/abs/2605.22508