移动战术环境下宽带cdma通信系统的传播损耗与自适应功率控制

MILCOM 92 Conference Record Pub Date : 1992-10-11 DOI:10.1109/MILCOM.1992.243984

D. Schilling, G. Lomp, T. Apelewicz

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引用次数: 5

摘要

指出未来战场不仅要求指挥所的机动化，而且要求士兵的机动化。为了保持高质量，这种环境下的LPI通信需要扩频系统使用快速自适应功率控制(APC)。此外，适当的设计需要彻底了解传播损耗与距离的关系。作者证明了标准损耗模型是不正确的，其中P/下标R/=P/下标S/ (d/d/下标0/)/sup -n/，对于自由空间n=2，对于Hata模型n= 3。给出了正确的模型，并进行了实验验证。此外，作者还表明，开环APC在使用芯片速率为24 Mchip/s的宽带cdma(码分多址)时提供了快速的线性操作。

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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Propagation loss and adaptive power control for a broadband-CDMA communication system in a mobile tactical environment

It is pointed out that the battlefield of the future requires the soldier as well as the command post to be mobile. To maintain high quality, LPI communications in this environment requires a spread spectrum system to use fast acting adaptive power control (APC). In addition, proper design requires a thorough knowledge of propagation loss vs. distance. The authors show that the standard loss model, where P/sub R/=P/sub S/ (d/d/sub 0/)/sup -n/ and n=2 for free space or 3 for the Hata model, is incorrect. A correct model is presented with experimental verification. In addition, the authors show that an open-loop APC provides fast acting, linear operation when using broadband-CDMA (code division multiple access) with a chip rate of 24 Mchip/s.<>

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MILCOM 92 Conference Record

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