The capacity of SAR interferometry to measure surface deformation with accuracy of 1 mm/year or better are well known. However this is typically limited to relative motion at short distance. Thanks to several advances in SAR sensor quality, data availability, orbit determination, processing, and calibration of atmospheric delays it is now possible to achieve that accuracy even across large distances of hundreds of kilometers. In this paper we revise the main contributions to the large scale error, considering available mitigation techniques. We provide a first validation for a processing based on Sentinel-1 data, by comparing our results with GNSS stations. For future SAR's operating at lower frequencies, it is vital to consider iono...
The propagation delay when radar signals travel from the troposphere has been one of the major limit...
AbstractCorrecting for tropospheric delays is one of the largest challenges facing the interferometr...
Optical leveling campaigns, tiltmeters, GPS and InSAR are geodetic techniques used to detect and mon...
This paper deals with the analysis of InSAR performance for large-scale deformation measurement. Th...
SAR interferometry is increasingly accurate in retrieving the surface deformation history over large...
Since the 1970s, Interferometric Synthetic Aperture Radar is commonly used in Earth Sciences to cons...
Previous studies have shown that a consistent reduction of tropospheric-related phase biases can be ...
Spatial and temporal variations of pressure, temperature, and water vapor content in the atmosphere...
Interferometric Synthetic Aperture Radar (InSAR) techniques have been recognised as an ideal tool fo...
The global interseismic strain rate map is being accomplished rapidly with measurements of the space...
Correcting for tropospheric delays is one of the largest challenges facing the interferometric synth...
International audienceSpatial and temporal variations of pressure, temperature, and water vapor cont...
Variation in tropospheric delay is a major limiting factor on the accuracy of interferometric synthe...
Spatial and temporal variations of pressure, temperature and water vapor content in the atmosphere i...
Synthetic Aperture Radar Interferometry (InSAR) is a space geodetic technique used for mapping defor...
The propagation delay when radar signals travel from the troposphere has been one of the major limit...
AbstractCorrecting for tropospheric delays is one of the largest challenges facing the interferometr...
Optical leveling campaigns, tiltmeters, GPS and InSAR are geodetic techniques used to detect and mon...
This paper deals with the analysis of InSAR performance for large-scale deformation measurement. Th...
SAR interferometry is increasingly accurate in retrieving the surface deformation history over large...
Since the 1970s, Interferometric Synthetic Aperture Radar is commonly used in Earth Sciences to cons...
Previous studies have shown that a consistent reduction of tropospheric-related phase biases can be ...
Spatial and temporal variations of pressure, temperature, and water vapor content in the atmosphere...
Interferometric Synthetic Aperture Radar (InSAR) techniques have been recognised as an ideal tool fo...
The global interseismic strain rate map is being accomplished rapidly with measurements of the space...
Correcting for tropospheric delays is one of the largest challenges facing the interferometric synth...
International audienceSpatial and temporal variations of pressure, temperature, and water vapor cont...
Variation in tropospheric delay is a major limiting factor on the accuracy of interferometric synthe...
Spatial and temporal variations of pressure, temperature and water vapor content in the atmosphere i...
Synthetic Aperture Radar Interferometry (InSAR) is a space geodetic technique used for mapping defor...
The propagation delay when radar signals travel from the troposphere has been one of the major limit...
AbstractCorrecting for tropospheric delays is one of the largest challenges facing the interferometr...
Optical leveling campaigns, tiltmeters, GPS and InSAR are geodetic techniques used to detect and mon...
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