Overview of a more simplified new channel model to synthesize total attenuation time series for satellite communication systems at Ka and Q/V bands

X. Boulanger, G. Carrie, L. Castanet, L. Feral
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引用次数: 2

Abstract

To insure a favourable link budget in order to reach the required availabilities and to counteract severe propagation impairments, Fade Mitigation Techniques FMT, such as adaptive coding [8, 9] have to be implemented in the fixed satellites telecommunications systems. To develop, test and adjust the real-time algorithms of these adaptative FMTs, a good knowledge of the dynamics of the propagation channel is required and realistic attenuation time series are needed to feed system simulators. Unfortunately, the low number of available propagation experiments at Ka-band and above unavoidably leads to the use of channel models allowing synthetic total attenuation time series to be generated. The aim of this paper is first of all to present the justification of the parameterization used in Recommendation ITU-R P.1853--1 which has not been published in the open literature. Secondly, some limitations are highlighted before moving on an overview of a more simplified new channel model to synthesize total attenuation time series.
一种用于合成Ka和Q/V波段卫星通信系统总衰减时间序列的简化信道模型综述
为了确保有利的链路预算,以达到所需的可用性并抵消严重的传播损害,必须在固定卫星电信系统中实施衰落缓解技术,如自适应编码[8,9]。为了开发、测试和调整这些自适应fmt的实时算法,需要对传播信道的动力学有很好的了解,并且需要真实的衰减时间序列来馈送系统模拟器。不幸的是,在ka波段及以上可用的传播实验数量较少,不可避免地导致使用通道模型,从而产生合成的总衰减时间序列。本文的目的首先是提出尚未在公开文献中发表的ITU-R P.1853—1建议书中使用的参数化的理由。其次,在概述一种更简化的新信道模型以合成总衰减时间序列之前,强调了一些局限性。
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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来源期刊
Space Communications
Space Communications 工程技术-电信学
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