Title :
Subsurface Investigations by MARSIS in Mars Express Mission
Author :
Picardi, G. ; Biccari, D. ; Cartacci, M. ; Cicchetti, A. ; Iorio, M. ; Seu, R. ; Masdea, A. ; Plaut, J. ; Jordan, R.L. ; Huff, R. ; Safaenili, A. ; Orosei, R. ; Bombaci, O. ; Calabrese, D. ; Zampolini, E. ; Melacci, P.T.
Author_Institution :
Infocom Dept., "La Sapienza" Univ. of Rome, Rome
Abstract :
The analysis of the surface return echoes in the subsurface data extraction in North Mars Polar region has shown the possibility to utilize simplified surface models, at least, for the purpose of the evaluation of the penetration depth capability. The surface simulation, obtained starting from MOLA data, has been utilized during the planning activity in order to select the MARSIS operative sequence in order to optimize the amount of scientific data taking into account the data rate available and the scientific target to be investigated during the next part of the mission. Moreover a simulator, still in progress, utilizing the surface characteristics will perform the analysis of the real data in order to make available the required information expected, by the mission, in terms of detection and identification of dielectric constant on the surface and subsurface.
Keywords :
Mars; planetary remote sensing; radioaltimeters; remote sensing by radar; MARSIS; MOLA data; Mars express mission; dielectric constant; Clutter; Dielectric materials; Electromagnetic propagation; Frequency; Mars; Optical reflection; Radar detection; Rough surfaces; Surface roughness; Water storage; Doppler processing; Subsurface sounding; penetration depth; radar equation inversion; surface backscattering; surface clutter cancellation;
Conference_Titel :
Radar Symposium, 2006. IRS 2006. International
Conference_Location :
Krakow
Print_ISBN :
978-83-7207-621-2
DOI :
10.1109/IRS.2006.4338150
