The design of microwave communication systems requires knowledge of the one-minute cumulative distribution of rainfall. However, since time series of rainfall fulfilling this constrain are not common, the conversion of a distribution obtained from time series with a longer integration time T (such as 30 or 60 minutes) into equivalent one-minute distribution has been proposed as an alternative. This paper reviews existing models for the conversion of cumulative distributions of rainfall and compares their predictions against a database of measured distributions from the Aburrá Valley in the department of Antioquia, with a view towards recommending a model suitable for the Colombian climate. Based on the results of the evaluation, the EXCELL RSC model represents a suitable alternative for rainfall rate predictions in the valley, and the best alternative for predictions in other regions in Colombia. This model would be useful for fade margin calculations for microwave systems, terrestrial or earth-to-space.

Evaluation of models for the conversion of T-min rainfall distributions to an equivalent one-minute distribution to be used in Colombia

EMILIANI, LUIS DAVID;LUINI, LORENZO
2010-01-01

Abstract

The design of microwave communication systems requires knowledge of the one-minute cumulative distribution of rainfall. However, since time series of rainfall fulfilling this constrain are not common, the conversion of a distribution obtained from time series with a longer integration time T (such as 30 or 60 minutes) into equivalent one-minute distribution has been proposed as an alternative. This paper reviews existing models for the conversion of cumulative distributions of rainfall and compares their predictions against a database of measured distributions from the Aburrá Valley in the department of Antioquia, with a view towards recommending a model suitable for the Colombian climate. Based on the results of the evaluation, the EXCELL RSC model represents a suitable alternative for rainfall rate predictions in the valley, and the best alternative for predictions in other regions in Colombia. This model would be useful for fade margin calculations for microwave systems, terrestrial or earth-to-space.
2010
Rain; millimeter wave propagation; microwave; satellite; integration time; statistical distribution; propagation in tropical zones
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/660502
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