Accurate Asymptotic Characterization of α-κ-μ Shadowed Fading Channel With Application to Secure URLLC

Teng Wu; Jie Zeng; Neng Ye; Wei Feng; Tiejun Lv

doi:10.1109/LCOMM.2023.3247012

Accurate Asymptotic Characterization of α-κ-μ Shadowed Fading Channel With Application to Secure URLLC

Teng Wu, Jie Zeng^*, Neng Ye, Wei Feng, Tiejun Lv

^*此作品的通讯作者

网络空间安全学院

科研成果: 期刊稿件 › 文章 › 同行评审

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摘要

In this letter, we propose a novel characterization method of α - κ - μ shadowed fading channel. For both the single α - κ - μ shadowed random variable (RV) and the sum of independent identically distributed α - κ - μ shadowed RVs, we accurately derive asymptotic closed-form expressions of their probability density functions (PDFs), cumulative distribution functions (CDFs), and moment-generating functions (MGFs) in this method. Moreover, we analyze the secure ultra-reliable and low latency communications (URLLC) in terms of average information leakage (AIL) in the massive multiple-input multiple-output (MIMO) system based on the proposed method. Numerical results of the proposed theory analysis are supported by Monte-Carlo simulations to validate the accuracy of the derivation.

源语言	英语
页（从-至）	1100-1104
页数	5
期刊	IEEE Communications Letters
卷	27
期	4
DOI	https://doi.org/10.1109/LCOMM.2023.3247012
出版状态	已出版 - 1 4月 2023

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abstract = "In this letter, we propose a novel characterization method of α - κ - μ shadowed fading channel. For both the single α - κ - μ shadowed random variable (RV) and the sum of independent identically distributed α - κ - μ shadowed RVs, we accurately derive asymptotic closed-form expressions of their probability density functions (PDFs), cumulative distribution functions (CDFs), and moment-generating functions (MGFs) in this method. Moreover, we analyze the secure ultra-reliable and low latency communications (URLLC) in terms of average information leakage (AIL) in the massive multiple-input multiple-output (MIMO) system based on the proposed method. Numerical results of the proposed theory analysis are supported by Monte-Carlo simulations to validate the accuracy of the derivation.",

keywords = "Accurate asymptotic characterization method, massive multiple-input multiple-output (MIMO), secure ultra-reliable and low latency communications (URLLC), α-κ-μ shadowed fading channel",

author = "Teng Wu and Jie Zeng and Neng Ye and Wei Feng and Tiejun Lv",

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AU - Lv, Tiejun

PY - 2023/4/1

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N2 - In this letter, we propose a novel characterization method of α - κ - μ shadowed fading channel. For both the single α - κ - μ shadowed random variable (RV) and the sum of independent identically distributed α - κ - μ shadowed RVs, we accurately derive asymptotic closed-form expressions of their probability density functions (PDFs), cumulative distribution functions (CDFs), and moment-generating functions (MGFs) in this method. Moreover, we analyze the secure ultra-reliable and low latency communications (URLLC) in terms of average information leakage (AIL) in the massive multiple-input multiple-output (MIMO) system based on the proposed method. Numerical results of the proposed theory analysis are supported by Monte-Carlo simulations to validate the accuracy of the derivation.

AB - In this letter, we propose a novel characterization method of α - κ - μ shadowed fading channel. For both the single α - κ - μ shadowed random variable (RV) and the sum of independent identically distributed α - κ - μ shadowed RVs, we accurately derive asymptotic closed-form expressions of their probability density functions (PDFs), cumulative distribution functions (CDFs), and moment-generating functions (MGFs) in this method. Moreover, we analyze the secure ultra-reliable and low latency communications (URLLC) in terms of average information leakage (AIL) in the massive multiple-input multiple-output (MIMO) system based on the proposed method. Numerical results of the proposed theory analysis are supported by Monte-Carlo simulations to validate the accuracy of the derivation.

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Accurate Asymptotic Characterization of α-κ-μ Shadowed Fading Channel With Application to Secure URLLC

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