In this paper, the algorithms developed for satellite synthetic aperture radar (SAR) interferometry were adapted to the ground-based SAR (GB-SAR) configuration and used for detecting the displacements of an alpine landslide which have occurred over many years. Indeed GB-SAR interferometry is based on the same principles as satellite SAR techniques but benefits from the GB-SAR’s versatility and capability of gathering many images per day. In monitoring applications of landslides moving only few centimeters per year, as the case here reported, the GB-SAR sensor is installed at repeated intervals several months apart over the observation period. Although the revisiting time is very similar to the satellite one, for each survey, lasting two or three days, more than ten images are available. They are analyzed separately and in combination with images from other surveys for coherent pixel selection. Interferograms are formed by cross-combining images from different surveys. Finally, the evolution of the deformation across the surveys is retrieved in a least square sense without any assumptions on its regularity. The used GB-SAR technique is described in detail in this paper, and the results obtained with regard to a landslide in the Italian Alps that has been monitored over a period of about three years are discussed.

Analysis of ground-based SAR data with diverse temporal baselines / L.NOFERINI ; T.TAKAYAMA ; M.PIERACCINI ; D.MECATTI ; G.MACALUSO ; G.LUZI ; C. ATZENI. - In: IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING. - ISSN 0196-2892. - STAMPA. - 46, Issue 6:(2008), pp. 1614-1623. [10.1109/TGRS.2008.916216]

Analysis of ground-based SAR data with diverse temporal baselines

NOFERINI, LINHSIA;PIERACCINI, MASSIMILIANO;MECATTI, DANIELE;MACALUSO, GIOVANNI;LUZI, GUIDO;ATZENI, CARLO
2008

Abstract

In this paper, the algorithms developed for satellite synthetic aperture radar (SAR) interferometry were adapted to the ground-based SAR (GB-SAR) configuration and used for detecting the displacements of an alpine landslide which have occurred over many years. Indeed GB-SAR interferometry is based on the same principles as satellite SAR techniques but benefits from the GB-SAR’s versatility and capability of gathering many images per day. In monitoring applications of landslides moving only few centimeters per year, as the case here reported, the GB-SAR sensor is installed at repeated intervals several months apart over the observation period. Although the revisiting time is very similar to the satellite one, for each survey, lasting two or three days, more than ten images are available. They are analyzed separately and in combination with images from other surveys for coherent pixel selection. Interferograms are formed by cross-combining images from different surveys. Finally, the evolution of the deformation across the surveys is retrieved in a least square sense without any assumptions on its regularity. The used GB-SAR technique is described in detail in this paper, and the results obtained with regard to a landslide in the Italian Alps that has been monitored over a period of about three years are discussed.
2008
46, Issue 6
1614
1623
L.NOFERINI ; T.TAKAYAMA ; M.PIERACCINI ; D.MECATTI ; G.MACALUSO ; G.LUZI ; C. ATZENI
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/256971
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