光射频通信辅助:成熟

2009 IEEE Avionics, Fiber-Optics and Phototonics Technology Conference Pub Date : 2009-12-01 DOI:10.1109/AVFOP.2009.5342628

L. Stotts, B. Stadler, P. Kolodzy, Alan Pike, T. Moore, D. Young, Randy Smith, Z. Bagley, N. Plasson, B. Graves, Dave Daugherty, J. Douglas, Todd W. Martin

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引用次数: 2

摘要

自由空间光学(FSO)通信的概念自20世纪60年代末以来一直存在。本文将描述一些最近的实验结果，证明和验证混合FSO/RF通信链路是战术高数据速率网络中可行的组件。特别是，我们将描述在严重的大气湍流下，高达200公里范围内的空气-山连接关闭。这些链路以低分组和误码率运行，偶尔会出现链路中断。与互联网一样，我们使用重传来最小化这些中断对链路吞吐量的影响。例如，当FSO系统运行时，ORCA使用RF系统重传，提高链路效率。此外，我们将讨论由飞机空气光学效应造成的潜在损失。最后，我们将展示模型预测和实验数据之间的比较，表明如果大气湍流条件已知，我们可以预测链路性能。

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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Optical RF communications adjunct: Coming of age

The concept of Free Space Optical (FSO) communications has been around since the late 1960's.This paper will describe some recent experimental results that demonstrate and validate hybrid FSO/RF communication links as viable components in a tactical high data rate network. In particular, we will describe air-mountain link closure up to ranges of 200 km under heavy atmospheric turbulence. These links were operated at low packet and bit error rates, with occasional link outages. Like the internet, we used retransmission to minimize the effect of these outages on link throughput. For example, when the FSO system is running, ORCA uses the RF system for retransmission to improve link efficiency. In addition, we will discuss potential losses created by the aircraft aero-optics effects. Finally, we will show comparison between model predictions and experimental data that suggest we can predict link performance if the atmospheric turbulence conditions are known.

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2009 IEEE Avionics, Fiber-Optics and Phototonics Technology Conference

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