Tactical line-of-sight radio propagation reliability modeling

Proceedings of MILCOM '93 - IEEE Military Communications Conference Pub Date : 1993-10-11 DOI:10.1109/MILCOM.1993.408596

V. Procopio, K.H. Brockel, J.R. Inserra, F.G. Loso, P. Major, K. D. Chaney, R. J. Locher, A. Vigants, M. Riehl, W. Barnett

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引用次数: 7

Abstract

The Army Operations warfighting concept includes a need for reliable tactical communications worldwide. A line-of-sight (LOS) propagation reliability working group, convened by the US Army Communications-Electronics Command, has developed a propagation reliability model that relates the reliability of an LOS link to path length, radio frequency, equipment capability, and geophysical and meteorological variables. The geophysical and meteorological variables are described in terms of a climate factor. The importance of climate on the reliability of communications links has been amply demonstrated by experience in Southwest Asia. The propagation reliability model has been incorporated in a new battlefield automated system, the Joint Tactical Area Communications Systems (Provisional) Network Planning Terminal (NPT). The NPT provides the US Army with new capabilities for network planning and management, frequency management, communications engineering, and electronic warfare threat analysis of LOS tactical communications links for deployment anywhere in the world.<>

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战术视距无线电传播可靠性建模

陆军作战概念包括对全球可靠战术通信的需求。由美国陆军通信电子司令部召集的视距(LOS)传播可靠性工作组开发了一种传播可靠性模型，该模型将视距链路的可靠性与路径长度、无线电频率、设备能力以及地球物理和气象变量联系起来。地球物理和气象变量用气候因子来描述。气候对通信链路可靠性的重要性已被西南亚的经验充分证明。传播可靠性模型已被纳入一个新的战场自动化系统，联合战术区域通信系统(临时)网络规划终端(NPT)。NPT为美国陆军提供了网络规划和管理、频率管理、通信工程和用于部署在世界任何地方的LOS战术通信链路的电子战威胁分析的新能力

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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Proceedings of MILCOM '93 - IEEE Military Communications Conference

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