Editorial for Special Issue "Monitoring Land Subsidence Using Remote Sensing"

Land subsidence is a geological hazard that affects several different communities around the world [...]

[1]  Artur Wójcik,et al.  Land Surface Subsidence Due to Mining-Induced Tremors in the Upper Silesian Coal Basin (Poland) - Case Study , 2020, Remote. Sens..

[2]  Michele Monego,et al.  Combining Sentinel-1 Interferometry and Ground-Based Geomatics Techniques for Monitoring Buildings Affected by Mass Movements , 2021, Remote. Sens..

[3]  Wei Lv,et al.  Land subsidence lagging quantification in the main exploration aquifer layers in Beijing plain, China , 2019, Int. J. Appl. Earth Obs. Geoinformation.

[4]  Ryosuke Doke,et al.  Very Local Subsidence Near the Hot Spring Region in Hakone Volcano, Japan, Inferred from InSAR Time Series Analysis of ALOS/PALSAR Data , 2020, Remote. Sens..

[5]  Mohammad Bagherbandi,et al.  Localized Subsidence Zones in Gävle City Detected by Sentinel-1 PSI and Leveling Data , 2020, Remote. Sens..

[6]  M. Fabris Coastline evolution of the Po River Delta (Italy) by archival multi-temporal digital photogrammetry , 2019, Geomatics, Natural Hazards and Risk.

[7]  Markus Even,et al.  Complex Surface Displacements above the Storage Cavern Field at Epe, NW-Germany, Observed by Multi-Temporal SAR-Interferometry , 2020, Remote. Sens..

[8]  Technical Systems,et al.  Mitigating Losses from Land Subsidence in the United States , 1991 .

[9]  Francesco Mancini,et al.  A Workflow Based on SNAP-StaMPS Open-Source Tools and GNSS Data for PSI-Based Ground Deformation Using Dual-Orbit Sentinel-1 Data: Accuracy Assessment with Error Propagation Analysis , 2021, Remote. Sens..

[10]  Vera Rocca,et al.  Multidisciplinary Analysis of Ground Movements: An Underground Gas Storage Case Study , 2020, Remote. Sens..

[11]  M. Floris,et al.  Estimation of land subsidence in deltaic areas through differential SAR interferometry: the Po River Delta case study (Northeast Italy) , 2018, International Journal of Remote Sensing.

[12]  M. Fabris,et al.  Integrated use of archival aerial photogrammetry, GNSS, and InSAR data for the monitoring of the Patigno landslide (Northern Apennines, Italy) , 2021, Landslides.

[13]  Thomas Fuhrmann,et al.  Resolving Three-Dimensional Surface Motion with InSAR: Constraints from Multi-Geometry Data Fusion , 2019, Remote. Sens..

[14]  Simone Fiaschi,et al.  Monitoring of Land Subsidence in the Po River Delta (Northern Italy) Using Geodetic Networks , 2021, Remote. Sens..

[15]  M. Becker,et al.  New estimation of Nile Delta subsidence rates from InSAR and GPS analysis , 2018, Environmental Earth Sciences.

[16]  Faramarz Nilfouroushan,et al.  Analysis of Clay-Induced Land Subsidence in Uppsala City Using Sentinel-1 SAR Data and Precise Leveling , 2019, Remote. Sens..

[17]  Li Duan,et al.  Land Subsidence Response to Different Land Use Types and Water Resource Utilization in Beijing-Tianjin-Hebei, China , 2020, Remote. Sens..

[18]  Massimo Fabris,et al.  Monitoring the Coastal Changes of the Po River Delta (Northern Italy) since 1911 Using Archival Cartography, Multi-Temporal Aerial Photogrammetry and LiDAR Data: Implications for Coastline Changes in 2100 A.D , 2021, Remote. Sens..

[19]  Yu Jiang,et al.  A Fine Velocity and Strain Rate Field of Present-Day Crustal Motion of the Northeastern Tibetan Plateau Inverted Jointly by InSAR and GPS , 2019, Remote. Sens..

[20]  Marijan Grgic,et al.  Estimating Vertical Land Motion from Remote Sensing and In-Situ Observations in the Dubrovnik Area (Croatia): A Multi-Method Case Study , 2020, Remote. Sens..