基于光通信的无线传感器网络研究:研究挑战与现状

Xinrui Li, Dandan Li
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引用次数: 0

摘要

随着商业需求的快速发展,人们对水下无线传感器网络的应用进行了大量的深入研究。近年来,光通信技术已成为水下无线传感器网络的研究热点。本文提供并设计了一种测试水下光通信的实验装置,以最大限度地利用从这些位移耦合到将机械能转换为电能的转导机制的能量。通过测量不同海域的扩散衰减系数,考虑了真实情况。本文讨论了一种极具潜力的光通信方法——可见光通信(VLC),并从多个角度对几种通信方法进行了比较,例如在盐水中的衰减。介绍了水下无线光通信调制技术的评价,并进一步介绍了水下无线传感器网络的数据采集和存储方法。本文研究了基于光通信的UWSN的研究现状,重点介绍了潜在的VLC方法以及VLC与其他光通信方法的比较。通过对水下通信方式的比较,分析了水下通信面临的挑战。未来的工作将最终展开。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study of Wireless Sensor Network Based on Optical Communication: Research Challenges and Current Results
With the rapid developments of commercial demands, a majority of advanced researches have been investigated for the applications of underwater wireless sensor (WSN) networks. Recently optical communication has been considered for underwater wireless sensor network. An experimental set-up for testing optical communication underwater has been provided and designed in present papers to maximize the energy coupled from these displacements to the transduction mechanism that converts the mechanical energy into electrical. The true case has been considered by measuring diffuse attenuation coefficients in different seas. One stand out potential optical communication method, Visible Light Communication (VLC) has been talked and several communication methods are compared from many points of view, for example attenuation in salt water. The evaluation of modulation techniques for underwater wireless optical communications has been displayed, and further how the data collection and storage with an underwater WSN is introduced. In this paper current researches for an (UWSN) based on optical communication are studied, in particular the potential VLC method and comparisons of VLC with other optical communication approaches. Underwater challenges would be analyzed by comparing a sort of communication methods, applied in underwater. Future work will be developed at last.
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