双连接 C-V2X 网络中全双工通信的覆盖概率和区域频谱效率

IF 5.3 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Vehicular Technology Pub Date : 2024-08-14 DOI:10.1109/OJVT.2024.3443665
Adeel Ahmad;Muhammad Nadeem Sial;Junaid Ahmed;Sadiq Ullah
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引用次数: 0

摘要

本文介绍了一种在蜂窝式车对物(C-V2X)网络的共享信道上使用全双工(FD)通信的新方法。V2X 网络中的通信定义了三种模式 A、B 和 C,其中首次引入了用于 FD 通信的模式 C。我们推导出了 C-V2X 网络 FD 成功概率的数学模型,并制定了区域频谱效率 (ASE) 的表达式。我们还首次分析了 C-V2X 网络中高清和远距离传输的双连接(DC),即接收车与最近的发射车和基站(BS)同时链接。分析和蒙特卡罗模拟结果表明,在 C-V2X 网络中使用 FD 与 HD 相比,成功概率相当,但 ASE 有所提高。在 -40 dBW 至 60 dBW 范围内,就信号干扰噪声比 (SINR) 而言,FD 的成功概率与 HD 接近。此外,还评估了在 FD 网络中针对不同的自干扰(SI)值实现完美自干扰消除(SIC)的重要性。在特定条件下,C-V2X 网络中的 FD 可显著改善 ASE,与直接短程通信 (DSRC) 相比增益为 2.55 dB,与 C-V2X 网络中的 HD 相比增益为 2 dB。在直流情况下,HD 和 FD 的 ASE 没有下降。在根据车辆、BS 和道路密度进行评估时,在 DSRC 和 C-V2X 网络中,与 HD 相比,FD 的 ASE 有所提高。
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Coverage Probability and Area Spectral Efficiency of Full Duplex Communication in C-V2X Network With Dual Connectivity
This paper presents a novel method for using full duplex (FD) communication across shared channels in cellular vehicle-to-everything (C-V2X) networks. Three modes A, B and C have been defined for communication in V2X networks where Mode C for FD communication has been introduced for the first time. We have derived mathematical model for success probability of FD for C-V2X network and formulated expressions for area spectral efficiency (ASE). Dual connectivity (DC) for simultaneous link of receiving vehicle with nearest transmitting vehicle and base station (BS) has also been analyzed for the first time for HD and FD in C-V2X network. Analytical and Monte Carlo simulations results have shown that utilization of FD in C-V2X network provides comparable success probability as compared to HD with improvement in ASE. Success probability of FD remains close to HD in terms of signal to interference noise ratio (SINR) in the range from -40 dBW to 60 dBW. Importance of achieving perfect self-interference cancellation (SIC) for different values of self-interference (SI) in FD network has also been evaluated. FD in C-V2X network has shown to significantly improve ASE with gain of 2.55 dB over Direct Short Range Communication (DSRC) and 2 dB over HD in C-V2X network under specific conditions. No degradation in ASE was observed in case of DC for HD and FD. ASE for FD has shown improvement as compared to HD for DSRC and C-V2X networks when evaluated against density of vehicles, BSs and roads.
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CiteScore
9.60
自引率
0.00%
发文量
25
审稿时长
10 weeks
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