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Main Authors: Ghadi, Farshad Rostami, Wong, Kai-Kit, Kaveh, Masoud, Xu, H., New, W. K., Lopez-Martinez, F. Javier, Shin, Hyundong
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.20930
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author Ghadi, Farshad Rostami
Wong, Kai-Kit
Kaveh, Masoud
Xu, H.
New, W. K.
Lopez-Martinez, F. Javier
Shin, Hyundong
author_facet Ghadi, Farshad Rostami
Wong, Kai-Kit
Kaveh, Masoud
Xu, H.
New, W. K.
Lopez-Martinez, F. Javier
Shin, Hyundong
contents Fluid antenna system (FAS) is gaining attention as an innovative technology for boosting diversity and multiplexing gains. As a key innovation, it presents the possibility to overcome interference by position reconfigurability on one radio frequency (RF) chain, giving rise to the concept of fluid antenna multiple access (FAMA). While FAMA is originally designed to deal with interference mainly by position change and treat interference as noise, this is not rate optimal, especially when suffering from a strong interference channel (IC) where all positions have strong interference. To tackle this, this paper considers a two-user strong IC where FAMA is used in conjunction with simultaneous nonunique decoding (SND). Specifically, we analyze the key statistics for the signal-to-noise ratio (SNR) and interference-to-noise ratio (INR) for a canonical two-user IC setup, and subsequently derive the delay outage rate (DOR), outage probability (OP) and ergodic capacity (EC) of the FAMA-IC. Our numerical results illustrate huge benefits of FAMA with SND over traditional fixed-position antenna systems (TAS) with SND in the fading IC.
format Preprint
id arxiv_https___arxiv_org_abs_2410_20930
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Fluid Antenna Multiple Access with Simultaneous Non-unique Decoding in Strong Interference Channel
Ghadi, Farshad Rostami
Wong, Kai-Kit
Kaveh, Masoud
Xu, H.
New, W. K.
Lopez-Martinez, F. Javier
Shin, Hyundong
Information Theory
Fluid antenna system (FAS) is gaining attention as an innovative technology for boosting diversity and multiplexing gains. As a key innovation, it presents the possibility to overcome interference by position reconfigurability on one radio frequency (RF) chain, giving rise to the concept of fluid antenna multiple access (FAMA). While FAMA is originally designed to deal with interference mainly by position change and treat interference as noise, this is not rate optimal, especially when suffering from a strong interference channel (IC) where all positions have strong interference. To tackle this, this paper considers a two-user strong IC where FAMA is used in conjunction with simultaneous nonunique decoding (SND). Specifically, we analyze the key statistics for the signal-to-noise ratio (SNR) and interference-to-noise ratio (INR) for a canonical two-user IC setup, and subsequently derive the delay outage rate (DOR), outage probability (OP) and ergodic capacity (EC) of the FAMA-IC. Our numerical results illustrate huge benefits of FAMA with SND over traditional fixed-position antenna systems (TAS) with SND in the fading IC.
title Fluid Antenna Multiple Access with Simultaneous Non-unique Decoding in Strong Interference Channel
topic Information Theory
url https://arxiv.org/abs/2410.20930