Asymmetric Linear Physical-Layer Network Coding

Qiuzhuo Chen; Tao Yang; Rongke Liu

doi:10.1109/LCOMM.2021.3091880

Asymmetric Linear Physical-Layer Network Coding

Qiuzhuo Chen
, Tao Yang^*
, Rongke Liu

^*Corresponding author for this work

School of Electronic and Information Engineering

Beihang University

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

1 Scopus citations

Abstract

In this letter, we put forth a new asymmetric linear PNC (A-LPNC) scheme for the setup where the users are subject to non-identical power constraints and modulation schemes. For deterministic channel, we show that given any pair of average symbol energies, the effective minimum distance of A-LPNC constellation can be made to be identical to the single-user minimum distance, translated into optimal error probability performance at a medium to high SNR. For fading channel, we show that the optimized network coding coefficients can be found and employed such that the effective minimum distance of A-LPNC is equal to the single-user minimum distance lower bound for integer channel gains. For real-valued channel gains, we present the optimal NC coefficients selection that minimizes the error probability of A-LPNC. These results are verified via simulations.

Original language	English
Pages (from-to)	3214-3218
Number of pages	5
Journal	IEEE Communications Letters
Volume	25
Issue number	10
DOIs	https://doi.org/10.1109/LCOMM.2021.3091880
State	Published - 1 Oct 2021

Keywords

Physical-layer network coding
compute-and-forward
distance spectrum
modulation

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10.1109/LCOMM.2021.3091880

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title = "Asymmetric Linear Physical-Layer Network Coding",

abstract = "In this letter, we put forth a new asymmetric linear PNC (A-LPNC) scheme for the setup where the users are subject to non-identical power constraints and modulation schemes. For deterministic channel, we show that given any pair of average symbol energies, the effective minimum distance of A-LPNC constellation can be made to be identical to the single-user minimum distance, translated into optimal error probability performance at a medium to high SNR. For fading channel, we show that the optimized network coding coefficients can be found and employed such that the effective minimum distance of A-LPNC is equal to the single-user minimum distance lower bound for integer channel gains. For real-valued channel gains, we present the optimal NC coefficients selection that minimizes the error probability of A-LPNC. These results are verified via simulations.",

keywords = "Physical-layer network coding, compute-and-forward, distance spectrum, modulation",

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T1 - Asymmetric Linear Physical-Layer Network Coding

AU - Chen, Qiuzhuo

AU - Yang, Tao

AU - Liu, Rongke

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N2 - In this letter, we put forth a new asymmetric linear PNC (A-LPNC) scheme for the setup where the users are subject to non-identical power constraints and modulation schemes. For deterministic channel, we show that given any pair of average symbol energies, the effective minimum distance of A-LPNC constellation can be made to be identical to the single-user minimum distance, translated into optimal error probability performance at a medium to high SNR. For fading channel, we show that the optimized network coding coefficients can be found and employed such that the effective minimum distance of A-LPNC is equal to the single-user minimum distance lower bound for integer channel gains. For real-valued channel gains, we present the optimal NC coefficients selection that minimizes the error probability of A-LPNC. These results are verified via simulations.

AB - In this letter, we put forth a new asymmetric linear PNC (A-LPNC) scheme for the setup where the users are subject to non-identical power constraints and modulation schemes. For deterministic channel, we show that given any pair of average symbol energies, the effective minimum distance of A-LPNC constellation can be made to be identical to the single-user minimum distance, translated into optimal error probability performance at a medium to high SNR. For fading channel, we show that the optimized network coding coefficients can be found and employed such that the effective minimum distance of A-LPNC is equal to the single-user minimum distance lower bound for integer channel gains. For real-valued channel gains, we present the optimal NC coefficients selection that minimizes the error probability of A-LPNC. These results are verified via simulations.

KW - Physical-layer network coding

KW - compute-and-forward

KW - distance spectrum

KW - modulation

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M3 - 文章

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VL - 25

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JO - IEEE Communications Letters

JF - IEEE Communications Letters

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Asymmetric Linear Physical-Layer Network Coding

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