Capacity Analysis of Adaptive IRS-Aided Transmission With Direct Link in Nakagami-m Fading Channels

This paper introduces a new analytical framework to evaluate the capacity of intelligent reconfigurable surface (IRS)-aided wireless networks in the presence of a direct link (DL). The analysis obtained is used to characterize the signal-to-noise ratio (SNR) at the user equipment (UE) while using ad...

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Bibliographic Details
Published in:IEEE transactions on cognitive communications and networking 2024-06, Vol.10 (3), p.920-937
Main Authors: Al-Rimawi, Ashraf, Al-Dweik, Arafat, Siddig, Ali A.
Format: Article
Language:English
Subjects:
Binary phase shift keying
capacity
Channel capacity
Channels
Codes
Distribution functions
Fading
Fixed rates
Intelligent reconfigurable surface (IRS)
Mathematical analysis
millimeter wave (mmW)
moment generating function (MGF)
Multiplexing
Nakagami-m
outage probability (Pout)
Probability density function
Quadrature amplitude modulation
Reconfigurable intelligent surfaces
Rician channels
Signal to noise ratio
sixth generation (6G)
Symbols
Wireless networks
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Summary:This paper introduces a new analytical framework to evaluate the capacity of intelligent reconfigurable surface (IRS)-aided wireless networks in the presence of a direct link (DL). The analysis obtained is used to characterize the signal-to-noise ratio (SNR) at the user equipment (UE) while using adaptive power and rate transmission. In particular, we consider channel inversion with fixed rate, optimum power and rate adaptation, and truncated channel inversion with a fixed rate. The obtained expressions are derived in a unified closed-form. All single-hop channel gains are modeled as independent and identically distributed Nakagami- {m} fading channels. Consequently, the channels' gains at the receiver become independent and nonidentically distributed. The moment generating function (MGF) is used to derive an accurate approximation of the probability density and cumulative distribution functions of the instantaneous SNR, which are used to evaluate the channel capacity at low and high SNRs to quantify the achievable multiplexing gain. The analytical and simulation results obtained indicated that a strong DL may significantly enhance the channel capacity gain obtained using the IRS. In particular scenarios, the capacity improved by approximately 30% for a large number of IRS elements when the DL Nakagami fading parameter {m} increases from 2 to 6.
ISSN:2332-7731
2332-7731
DOI:10.1109/TCCN.2023.3342417