地面-水下混合射频/VLC 能量收集系统性能分析

IF 3 3区计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Transactions on Sustainable Computing Pub Date : 2023-11-24 DOI:10.1109/TSUSC.2023.3336374

Krati Mittal;Akash Gupta;Nikhil Sharma;Manan Jani;Parul Garg

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摘要

本文研究了陆地-水下可见光合作通信（UWVLC）系统的性能分析，考虑了船上解码和转发（DF）中继器的能量收集。发射机到船上的链路以阴影里氏衰落信道为模型，而 UWVLC 链路则以混合指数广义伽马（EGG）分布为特征。能量受限的中继节点根据功率分配（PS）方案从接收到的信号中收集能量，假设接收到的部分功率用于能量收集。中继节点的能量收集可减少碳足迹，从而使系统具有可持续性。考虑到气泡水平、温度和盐度等各种参数的影响，我们推导出了所考虑的水下节点系统的误码率 (BER)、中断概率和遍历容量的新型闭式表达式。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Performance Analysis of Hybrid RF/VLC Energy Harvested Terrestrial-Underwater System

In this paper, we study the performance analysis of a cooperative terrestrial-underwater visible light communication (UWVLC) system, considering energy harvesting at a decode and forward (DF) relay on the ship. The transmitter to the ship link is modelled by shadowed Rician fading channel, while the UWVLC link is characterised by mixture exponential generalized gamma (EGG) distribution. The energy constrained relay harvests energy from the received signal based on power splitting (PS) scheme, assuming a part of received power is used for energy harvesting. Energy harvesting at the relay node makes the system sustainable by reducing the carbon footprints. We derive novel closed form expressions for bit error rate (BER), outage probability and ergodic capacity for the considered system at the underwater node, considering the effects of various parameters that include bubble level, temperature and salinity.

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