利用漫反射的间接视线自由空间光通信

2021 IEEE 22nd International Conference on High Performance Switching and Routing (HPSR) Pub Date : 2021-06-07 DOI:10.1109/HPSR52026.2021.9481868

R. Rojas-Cessa

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引用次数: 2

摘要

自由空间光通信(FSOC)已被证明可以在无线通信中实现最高的数据速率，然而，它的长期采用仍然保留在一组非常有选择性的应用中。有限采用FSOC的罪魁祸首是该技术使用的点对点链路设置，因为需要A)发射器和接收器之间的直接视距(LOS)，以及b)通信站收发器所需的精细校准。间接LOS FSOC (ID-FSOC)是FSOC的替代方案，其中发射器和接收器可能不在彼此的LOS中，而是漫反射器(DR)。这种反射器不仅有助于覆盖视线之外的区域，而且还将光链路转换为广播信道，其中一个站可以与可能对反射器具有LOS的所有其他站进行通信。在这里，我们讨论了这种新范式的一些特性，并认为它可能代表了光通信自由空间的一个新方面，为高速数据通信提供了广泛的应用。

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Indirect Line-Of-Sight Free-Space Optical Communications Using Diffuse Reflection

Free-space optical communications (FSOC) has been proved to achieve the highest data rate in wireless communications, and yet, its long-time adoption remains reserved for a very selective set of applications. A culprit of the limited adoption of FSOC is its point-to-point link setup used by this technology as a result of the required a) the direct Line-of-Sight (LOS) between transmitter and receiver, and b) the needed fine alignment of the transceivers of the communicating stations. Indirect LOS FSOC (ID-FSOC) is an alternative to FSOC where transmitter and receiver might not be in LOS of each other but to a diffuse reflector (DR). Such a reflector not only helps to cover out-of-sight areas but also converts the optical link onto a broadcast channel where one station may communicate with all other stations that may have LOS to the reflector. Here, we discuss some of the properties of this novel paradigm and argue that it may represent a new facet of free space of optical communications that provides a great range of applications for high-speed data communications.

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2021 IEEE 22nd International Conference on High Performance Switching and Routing (HPSR)

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