Prediction and adaptation of satellite channels with weather-induced impairments

2001 IEEE Aerospace Conference Proceedings (Cat. No.01TH8542) Pub Date : 2001-03-10 DOI:10.1109/AERO.2001.931351

J.P. Choi, V. Chan

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引用次数: 2

Abstract

Efficiency improvements using prediction and adaptation methods over satellite channels with weather-induced impairments are presented. Considering scintillation and rain attenuation as two dominant factors for signal fading over satellite-Earth paths over 10 GHz, we develop statistical and spectral analyses of these processes, and obtain simple linear estimators for received signal attenuation using autoregressive (AR) models. Using these estimators, we present results where we can predict the received signal attenuation within /spl plusmn/0.5 dB 1 second ahead and within /spl plusmn/1.0 dB 4 seconds ahead. For adaptation, we change signal transmission power, modulation symbol size, and/or code rate adaptively. In particular, we introduce a continuous power control and discrete rate control strategy, through which we build a set of modulation/code states, and discretely change the modulation symbol size and the code rate from state to state. Within each state, continuous power contral is implemented. The quantitative analysis of power consumption indicates that there is a substantial gain in performance with the adaptive schemes, e.g., as much as 13 dB on a lightly rainy day.

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预报和适应卫星频道与天气引起的损害

提出了利用预报和适应方法在卫星信道上提高效率的方法。考虑到闪烁和降雨衰减是10ghz以上卫星-地球路径上信号衰落的两个主要因素，我们对这些过程进行了统计和频谱分析，并使用自回归(AR)模型获得了接收信号衰减的简单线性估计。使用这些估计器，我们可以提前1秒预测/spl plusmn/0.5 dB内的接收信号衰减，提前4秒预测/spl plusmn/1.0 dB内的衰减。为了适应，我们自适应地改变信号的传输功率、调制符号大小和/或码率。特别地，我们引入了一种连续功率控制和离散速率控制策略，通过该策略我们构建了一组调制/编码状态，并在状态之间离散地改变调制符号大小和码率。在每个状态下，实现连续功率控制。功耗的定量分析表明，自适应方案的性能有很大的提高，例如，在小雨天，性能可提高13 dB。

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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2001 IEEE Aerospace Conference Proceedings (Cat. No.01TH8542)

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