Flexible Intelligent Metasurfaces in High-Mobility MIMO Integrated Sensing and Communications

Kuranage Roche Rayan Ranasinghe; Jiancheng An; Ivan Alexander Morales Sandoval; Hyeon Seok Rou; Giuseppe Thadeu Freitas De Abreu; Chau Yuen; Merouane Debbah

doi:10.1109/TWC.2026.3668992

Flexible Intelligent Metasurfaces in High-Mobility MIMO Integrated Sensing and Communications

Kuranage Roche Rayan Ranasinghe
, Jiancheng An
, Ivan Alexander Morales Sandoval
, Hyeon Seok Rou
, Giuseppe Thadeu Freitas De Abreu
, Chau Yuen
, Merouane Debbah

Jacobs University Bremen
School of Electrical and Electronic Engineering

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

We propose a novel DD MIMO channel model incorporating FIM, which is suitable for ISAC in high-mobility scenarios. We then discuss how the proposed FPDD channel model can be applied in a logical manner to multicarrier waveforms that are known to perform well in DD environments, namely, OFDM, OTFS, and AFDM. Leveraging the proposed model, we formulate an achievable rate maximization problem with a strong sensing constraint for all the aforementioned waveforms, which we then solve via a gradient ascent algorithm with closed-form gradients presented as a bonus. Our numerical results indicate that the achievable rate is significantly impacted by the emerging FIM technology with careful parametrization essential in obtaining strong ISAC performance across all waveforms suitable to mitigating the effects of DD channels.

Original language	British English
Pages (from-to)	13319-13335
Number of pages	17
Journal	IEEE Transactions on Wireless Communications
Volume	25
DOIs	https://doi.org/10.1109/TWC.2026.3668992
State	Published - 2026

Keywords

6G
achievable rate
AFDM
B5G
Doubly-dispersive channel
FIM
ISAC
MIMO
OFDM
OTFS

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title = "Flexible Intelligent Metasurfaces in High-Mobility MIMO Integrated Sensing and Communications",

abstract = "We propose a novel DD MIMO channel model incorporating FIM, which is suitable for ISAC in high-mobility scenarios. We then discuss how the proposed FPDD channel model can be applied in a logical manner to multicarrier waveforms that are known to perform well in DD environments, namely, OFDM, OTFS, and AFDM. Leveraging the proposed model, we formulate an achievable rate maximization problem with a strong sensing constraint for all the aforementioned waveforms, which we then solve via a gradient ascent algorithm with closed-form gradients presented as a bonus. Our numerical results indicate that the achievable rate is significantly impacted by the emerging FIM technology with careful parametrization essential in obtaining strong ISAC performance across all waveforms suitable to mitigating the effects of DD channels.",

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author = "Ranasinghe, \{Kuranage Roche Rayan\} and Jiancheng An and Sandoval, \{Ivan Alexander Morales\} and Rou, \{Hyeon Seok\} and Abreu, \{Giuseppe Thadeu Freitas De\} and Chau Yuen and Merouane Debbah",

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doi = "10.1109/TWC.2026.3668992",

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AU - Ranasinghe, Kuranage Roche Rayan

AU - An, Jiancheng

AU - Sandoval, Ivan Alexander Morales

AU - Rou, Hyeon Seok

AU - Abreu, Giuseppe Thadeu Freitas De

AU - Yuen, Chau

AU - Debbah, Merouane

PY - 2026

Y1 - 2026

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AB - We propose a novel DD MIMO channel model incorporating FIM, which is suitable for ISAC in high-mobility scenarios. We then discuss how the proposed FPDD channel model can be applied in a logical manner to multicarrier waveforms that are known to perform well in DD environments, namely, OFDM, OTFS, and AFDM. Leveraging the proposed model, we formulate an achievable rate maximization problem with a strong sensing constraint for all the aforementioned waveforms, which we then solve via a gradient ascent algorithm with closed-form gradients presented as a bonus. Our numerical results indicate that the achievable rate is significantly impacted by the emerging FIM technology with careful parametrization essential in obtaining strong ISAC performance across all waveforms suitable to mitigating the effects of DD channels.

KW - 6G

KW - achievable rate

KW - AFDM

KW - B5G

KW - Doubly-dispersive channel

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KW - OTFS

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JF - IEEE Transactions on Wireless Communications

ER -

Flexible Intelligent Metasurfaces in High-Mobility MIMO Integrated Sensing and Communications

Abstract

Keywords

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