Oceanic Turbulence and Beam Propagation Characteristics of Underwater Optical Wireless Communication: A Brief Survey

The International Conference on scientific innovations in Science, Technology, and Management Pub Date : 2023-08-07 DOI:10.59544/tgts6433/ngcesi23p92

Aravind J. M., Arul Teen Y. P.

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Abstract

Underwater wireless communication (UWC) means the transmission of information using wireless channels through the underwater, i.e. radio frequency waves (RF), acoustic waves and optical waves in an unguided water environment. In this review article we focus on underwater optical wireless communications (UWOCs) using optical waves as transmission medium. UWOCs have a much higher communication frequency and therefore a much higher data rate compared to RF and acoustic counter-parts. Due to this high-speed data transfer advantage, UWOC has been very attractive over the past few years. Many application shave been proposed in UWOC systems for protection of the environment, underwater exploration, emergency alerts and military operations etc. However, underwater absorption, scattering and turbulence processes will introduce attenuation and fading to light propagation and then degrade the performance of underwater wireless optical communications (UWOC). In this review paper we give a detailed overview of turbulence and beam propagation characteristics of different water bodies in UWOC.

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海洋湍流与水下无线光通信波束传播特性综述

水下无线通信(UWC)是指在无制导的水环境下，利用无线信道通过水下进行信息传输，即无线射频(RF)、声波和光波。本文主要介绍了以光波为传输介质的水下无线光通信技术。与射频和声学对应物相比，uwoc具有更高的通信频率，因此具有更高的数据速率。由于这种高速数据传输的优势，UWOC在过去几年中一直非常有吸引力。UWOC系统在环境保护、水下探测、应急报警和军事行动等方面有许多应用。然而，水下的吸收、散射和湍流过程会给光的传播带来衰减和衰落，从而降低水下无线光通信(UWOC)的性能。本文详细介绍了UWOC中不同水体的湍流和波束传播特性。

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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The International Conference on scientific innovations in Science, Technology, and Management

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