Modeling of Effective Path-Length Based on Rain Cell Statistics for Total Attenuation Prediction in Satellite Link

ITU-R recommends a global rain-attenuation prediction model for satellite link, but it lacks a physical meaning because it is an empirical model and the effective path-length model is frequency dependent. In this letter, a global effective path-length model, which can be used for total attenuation p...

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Veröffentlicht in:IEEE communications letters 2018-12, Vol.22 (12), p.2483-2486
Hauptverfasser: Kang, Woo-Geun, Kim, Tae-Hong, Park, Sung-Won, Lee, Il-Yong, Pack, Jeong-Ki
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container_issue 12
container_start_page 2483
container_title IEEE communications letters
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creator Kang, Woo-Geun
Kim, Tae-Hong
Park, Sung-Won
Lee, Il-Yong
Pack, Jeong-Ki
description ITU-R recommends a global rain-attenuation prediction model for satellite link, but it lacks a physical meaning because it is an empirical model and the effective path-length model is frequency dependent. In this letter, a global effective path-length model, which can be used for total attenuation prediction in a satellite link, is proposed. The proposed model is a physical model based on the rain-cell concept. The test for the proposed model was performed against the data in the ITU-R SG3 DB, using the procedures in the recommendation ITU-R P. 311 and the Fascicle. The test results show that the prediction error of the proposed model is less than the existing ITU-R model. In addition, the proposed model is a physical model and simple compared to the current ITU-R model.
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subjects Attenuation
Data models
effective path length
Mathematical model
Mathematical models
Prediction algorithms
Predictive models
Rain
rain cell
Satellite communications
Satellite link
Satellites
Statistical prediction
total attenuation
title Modeling of Effective Path-Length Based on Rain Cell Statistics for Total Attenuation Prediction in Satellite Link
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