基于物联网的高速混合光纤无线通信系统建模

Meet Kumari
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引用次数: 0

摘要

对于低成本、高数据速率和远距离传输的下一代物联网网络来说,光纤通信在地理限制区域可能不是一个有利的选择。为了降低光缆和短距离无线链路的成本,提高系统的移动性和带宽,采用光纤-可见光通信(VLC)混合通信系统,实现随时随地、低时延地获取信息。本文提出了一种基于白光发光二极管(LED)的光纤vlc系统。结果表明,所提出的工作允许40Gbps的传输速率,10km的光纤范围和800m的VLC范围。在最佳发射和接收孔径分别为10cm和10cm时,可以接收到理想的系统性能。所提出的光纤vlc系统在噪声和干扰存在的情况下具有远距离和高数据速率的特点。此外,与其他相关工作相比,所提出的系统是一个优越的系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling of IoT based High-Speed Hybrid Fiber-Optical Wireless Communication System
An optical fiber communication may not be a favorable choice in geographical restriction areas for next generation Internet of Things (IoT) based networks at minimum cost, high data rate and long-range transmission. To reduce the cost of fiber cable, short range wireless links, to enhance the mobility and the system bandwidth, a hybrid fiber-Visible Light Communication (VLC) system is employed to access the information anywhere and anytime with less delay. In this work, a white Light Emitting Diode (LED) based fiber-VLC system has been presented. The results depict that the proposed work allows 40Gbps transmission rate, fiber range of 10km and VLC range of 800m. Also, at an optimum transmitter and receiver aperture diameters of 10cm and 10cm respectively, the desired system performance can be received. The proposed fiber-VLC system offers long range distance and high data rate under the presence of noise and interference. Besides this, the proposed system is a superior system when compared to other related work.
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