Title :
Weather effects mitigation at Ka band by using radiometeorological model forecast in deep space downlinks
Author :
Biscarini, M. ; Marzano, F.S. ; Montopoli, M. ; Iess, L. ; De Sanctis, K. ; Di Fabio, S. ; Montagna, M. ; Mercolino, M. ; Lanucara, M.
Author_Institution :
DIET, Sapienza Univ. of Rome, Rome, Italy
Abstract :
Deep space exploration missions are aimed at acquiring information about the solar system and a significant communication capacity has to be planned to transfer data for such very large distances. Terrestrial atmospheric impairments on the space-to-Earth propagating signal are the major responsible for the signal degradation thus reducing the channel temporal availability. In this work weather forecast models, coupled with microphysically-oriented radio-propagation models, are described in order to evaluate atmospheric effects at Ka-band. Estimation data return techniques are summarized and numerical results in a simulated operational scenario are illustrated in terms of received data volume using the BepiColombo mission as a baseline example.
Keywords :
microwave propagation; millimetre wave propagation; space communication links; weather forecasting; wireless channels; BepiColombo mission; Ka-band; deep space downlink; deep space exploration mission; microphysically-oriented radio propagation model; radiometeorological model; solar system; space-to-Earth signal propagation; terrestrial atmospheric impairment; weather effect mitigation; Atmospheric modeling; Benchmark testing; Numerical models; Predictive models; Satellites; Weather forecasting; Ka-band; radiopropagation; weather forecast;
Conference_Titel :
Antennas and Propagation (EuCAP), 2015 9th European Conference on
Conference_Location :
Lisbon
