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JOURNAL ARTICLE

Spatial Channel Modeling for Multiple-Source Underwater Wireless Optical Links

Xiaoqian LiuYize ZhangXinke TangYuhan Dong

Year: 2023 Pages: 955-960
DOI: 10.1109/iccworkshops57953.2023.10283709
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Abstract

In underwater wireless optical communications (UWOC), absorption and multiple scattering may cause beam dispersion in both time and space domains and degrade the received intensity. The spatial characteristics of UWOC links have not been studied extensively, especially in multiple-source scenario. In this paper, we consider two kinds of light sources link geometries, i.e., linear array and circular array, and propose a weighted double exponential polynomial (WDEP) to model the irradiance distribution of general multiple-source UWOC links with arbitrary numbers of light sources. Numerical results suggest that the proposed WDEP model fits well with the results of Monte Carlo simulations in turbid water environment.

Keywords:
Underwater Monte Carlo method Computer science Irradiance Channel (broadcasting) Underwater acoustic communication Wireless Optics Exponential function Scattering Optical wireless Physics Telecommunications Mathematics Geology Mathematical analysis

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Topics

Optical Wireless Communication Technologies
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Underwater Vehicles and Communication Systems
Physical Sciences →  Engineering →  Ocean Engineering
Image Enhancement Techniques
Physical Sciences →  Computer Science →  Computer Vision and Pattern Recognition

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