Add to ORKGDeep 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 examp...
This paper presents a proposed approach for Ka-band link management for deep space applications usin...
Deep space (DS) exploration is aimed at acquiring information about the solar system and its composi...
The optimization of the received data volume is one of the key objectives of deep-space missions. Re...
The goal of this work is to demonstrate how the use of short-term radio-meteorological forecasts can...
This paper aims at improving and assessing a previously developed technique to predict data volume t...
This work aims at verifying an innovative approach for link-design optimization of deep-space missio...
Deep space exploration is aimed at acquiring information about the solar system. In this scenario, t...
This paper describes a methodology to model the propagation conditions for Earth observation data d...
This paper describes a methodology to model the propagation conditions for Earth observation data d...
This paper describes a methodology to model the propagation conditions for Earth observation data d...
This paper describes a methodology to model the propagation conditions for Earth observation data d...
Deep space (DS) missions for interplanetary explorations are aimed at acquiring information about th...
The aim of this paper is to investigate the usability of high-frequency channels for deep-space (DS)...
Deep space (DS) missions for interplanetary explorations are aimed at acquiring information about th...
Atmospheric loss fluctuations due to water vapor and liquid water contribute to fluctuations in 32 G...
This paper presents a proposed approach for Ka-band link management for deep space applications usin...
Deep space (DS) exploration is aimed at acquiring information about the solar system and its composi...
The optimization of the received data volume is one of the key objectives of deep-space missions. Re...
The goal of this work is to demonstrate how the use of short-term radio-meteorological forecasts can...
This paper aims at improving and assessing a previously developed technique to predict data volume t...
This work aims at verifying an innovative approach for link-design optimization of deep-space missio...
Deep space exploration is aimed at acquiring information about the solar system. In this scenario, t...
This paper describes a methodology to model the propagation conditions for Earth observation data d...
This paper describes a methodology to model the propagation conditions for Earth observation data d...
This paper describes a methodology to model the propagation conditions for Earth observation data d...
This paper describes a methodology to model the propagation conditions for Earth observation data d...
Deep space (DS) missions for interplanetary explorations are aimed at acquiring information about th...
The aim of this paper is to investigate the usability of high-frequency channels for deep-space (DS)...
Deep space (DS) missions for interplanetary explorations are aimed at acquiring information about th...
Atmospheric loss fluctuations due to water vapor and liquid water contribute to fluctuations in 32 G...
This paper presents a proposed approach for Ka-band link management for deep space applications usin...
Deep space (DS) exploration is aimed at acquiring information about the solar system and its composi...
The optimization of the received data volume is one of the key objectives of deep-space missions. Re...