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Main Authors: Abbas, Omran, Zayat, Abdullah, Markley, Loıc, Chaaban, Anas
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.23780
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author Abbas, Omran
Zayat, Abdullah
Markley, Loıc
Chaaban, Anas
author_facet Abbas, Omran
Zayat, Abdullah
Markley, Loıc
Chaaban, Anas
contents Stacked intelligent surfaces (SIS) are a promising technology for next-generation wireless systems, offering an opportunity to enhance communication performance with low power consumption. Typically, an SIS is modelled as a surface that imparts phase shifts on impinging electromagnetic signals to achieve desired communication objectives. However, this mode of operation results in a linear SIS, which limits its applicability to linear operations. To unlock further SIS potential, we propose a nonlinear SIS that can mimic the behaviour of nonlinear neural networks. We discuss the feasibility and potential of this idea and propose a nonlinear SIS unit cell with a step-like response. To evaluate the system-level performance of nonlinear SIS, we present a case study where SIS structures are optimized to minimize the symbol error rate (SER) in an MIMO system with SIS deployed at both the transmitter and receiver sides using only statistical channel information. We demonstrate that a nonlinear SIS can improve communication reliability compared to a linear SIS by forming complex signal patterns across the SIS surface, which provide higher diversity against noise disturbances, while still allowing the receiver to discern these patterns. Finally, we outline several potential applications of nonlinear SIS in wireless communication scenarios.
format Preprint
id arxiv_https___arxiv_org_abs_2510_23780
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Nonlinear Stacked Intelligent Surfaces for Wireless Systems
Abbas, Omran
Zayat, Abdullah
Markley, Loıc
Chaaban, Anas
Signal Processing
Stacked intelligent surfaces (SIS) are a promising technology for next-generation wireless systems, offering an opportunity to enhance communication performance with low power consumption. Typically, an SIS is modelled as a surface that imparts phase shifts on impinging electromagnetic signals to achieve desired communication objectives. However, this mode of operation results in a linear SIS, which limits its applicability to linear operations. To unlock further SIS potential, we propose a nonlinear SIS that can mimic the behaviour of nonlinear neural networks. We discuss the feasibility and potential of this idea and propose a nonlinear SIS unit cell with a step-like response. To evaluate the system-level performance of nonlinear SIS, we present a case study where SIS structures are optimized to minimize the symbol error rate (SER) in an MIMO system with SIS deployed at both the transmitter and receiver sides using only statistical channel information. We demonstrate that a nonlinear SIS can improve communication reliability compared to a linear SIS by forming complex signal patterns across the SIS surface, which provide higher diversity against noise disturbances, while still allowing the receiver to discern these patterns. Finally, we outline several potential applications of nonlinear SIS in wireless communication scenarios.
title Nonlinear Stacked Intelligent Surfaces for Wireless Systems
topic Signal Processing
url https://arxiv.org/abs/2510.23780