22.3.2.2.6 Landslide Analysis, SAR, InSAR, IFSAR, Radar

Hong, Y., Adler, R., Huffman, G.,
An Experimental Global Prediction System for Rainfall-Triggered Landslides Using Satellite Remote Sensing and Geospatial Datasets,
GeoRS(45), No. 6, June 2007, pp. 1671-1680.
IEEE DOI 0706
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Cascini, L.[Leonardo], Fornaro, G.[Gianfranco], Peduto, D.[Dario],
Analysis at medium scale of low-resolution DInSAR data in slow-moving landslide-affected areas,
PandRS(64), No. 6, November 2009, pp. 598-611.
Elsevier DOI 1001
DInSAR; Multipass DInSAR; Landslides; Visibility mapping; Natural hazards BibRef

Yonezawa, C., Watanabe, M., Saito, G.,
Polarimetric Decomposition Analysis of ALOS PALSAR Observation Data before and after a Landslide Event,
RS(4), No. 8, August 2012, pp. 2314-2328.
DOI Link 1209
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Chang, W.Y.[Wen-Yen], Wang, C.T.[Chih-Tien], Chu, C.Y.[Chih-Yuan], Kao, J.R.[Jyun-Ru],
Mapping Geo-Hazard by Satellite Radar Interferometry,
PIEEE(100), No. 10, October 2012, pp. 2835-2850.
IEEE DOI 1210
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Strozzi, T.[Tazio], Ambrosi, C.[Christian], Raetzo, H.[Hugo],
Interpretation of Aerial Photographs and Satellite SAR Interferometry for the Inventory of Landslides,
RS(5), No. 5, 2013, pp. 2554-2570.
DOI Link 1307
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Miller, P.E., Mills, J.P., Barr, S.L., Birkinshaw, S.J., Hardy, A.J., Parkin, G., Hall, S.J.,
A Remote Sensing Approach for Landslide Hazard Assessment on Engineered Slopes,
GeoRS(50), No. 4, April 2012, pp. 1048-1056.
IEEE DOI 1204
BibRef

Hölbling, D., Füreder, P., Antolini, F., Cigna, F., Casagli, N., Lang, S.,
A Semi-Automated Object-Based Approach for Landslide Detection Validated by Persistent Scatterer Interferometry Measures and Landslide Inventories,
RS(4), No. 5, May 2012, pp. 1310-1336.
DOI Link 1205
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Brocca, L., Ponziani, F., Moramarco, T., Melone, F., Berni, N., Wagner, W.,
Improving Landslide Forecasting Using ASCAT-Derived Soil Moisture Data: A Case Study of the Torgiovannetto Landslide in Central Italy,
RS(4), No. 5, May 2012, pp. 1232-1244.
DOI Link 1205
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Sun, Q.[Qian], Zhang, L.[Lei], Ding, X.L.[Xiao-Li], Hu, J.[Jun], Liang, H.Y.[Hong-Yu],
Investigation of Slow-Moving Landslides from ALOS/PALSAR Images with TCPInSAR: A Case Study of Oso, USA,
RS(7), No. 1, 2014, pp. 72-88.
DOI Link 1502
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Plank, S.[Simon], Twele, A.[André], Martinis, S.[Sandro],
Landslide Mapping in Vegetated Areas Using Change Detection Based on Optical and Polarimetric SAR Data,
RS(8), No. 4, 2016, pp. 307.
DOI Link 1604
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de Novellis, V.[Vincenzo], Castaldo, R.[Raffaele], Lollino, P.[Piernicola], Manunta, M.[Michele], Tizzani, P.[Pietro],
Advanced Three-Dimensional Finite Element Modeling of a Slow Landslide through the Exploitation of DInSAR Measurements and in Situ Surveys,
RS(8), No. 8, 2016, pp. 670.
DOI Link 1609
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Wang, C.C.[Chang-Cheng], Mao, X.K.[Xiao-Kang], Wang, Q.J.[Qi-Jie],
Landslide Displacement Monitoring by a Fully Polarimetric SAR Offset Tracking Method,
RS(8), No. 8, 2016, pp. 624.
DOI Link 1609
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Cai, J.[Jiehua], Wang, C.C.[Chang-Cheng], Mao, X.K.[Xiao-Kang], Wang, Q.J.[Qi-Jie],
An Adaptive Offset Tracking Method with SAR Images for Landslide Displacement Monitoring,
RS(9), No. 8, 2017, pp. xx-yy.
DOI Link 1708
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Sun, Q.[Qian], Hu, J.[Jun], Zhang, L.[Lei], Ding, X.[Xiaoli],
Towards Slow-Moving Landslide Monitoring by Integrating Multi-Sensor InSAR Time Series Datasets: The Zhouqu Case Study, China,
RS(8), No. 11, 2016, pp. 908.
DOI Link 1612
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Bozzano, F.[Francesca], Mazzanti, P.[Paolo], Perissin, D.[Daniele], Rocca, A.[Alfredo], de Pari, P.[Pierfederico], Discenza, M.E.[Marco E.],
Basin Scale Assessment of Landslides Geomorphological Setting by Advanced InSAR Analysis,
RS(9), No. 3, 2017, pp. xx-yy.
DOI Link 1704
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Mondini, A.C.[Alessandro C.],
Measures of Spatial Autocorrelation Changes in Multitemporal SAR Images for Event Landslides Detection,
RS(9), No. 6, 2017, pp. xx-yy.
DOI Link 1706
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Béjar-Pizarro, M.[Marta], Notti, D.[Davide], Mateos, R.M.[Rosa M.], Ezquerro, P.[Pablo], Centolanza, G.[Giuseppe], Herrera, G.[Gerardo], Bru, G.[Guadalupe], Sanabria, M.[Margarita], Solari, L.[Lorenzo], Duro, J.[Javier], Fernández, J.[José],
Mapping Vulnerable Urban Areas Affected by Slow-Moving Landslides Using Sentinel-1 InSAR Data,
RS(9), No. 9, 2017, pp. xx-yy.
DOI Link 1711
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Sun, L.[Luyi], Muller, J.P.[Jan-Peter], Chen, J.S.[Jin-Song],
Time Series Analysis of Very Slow Landslides in the Three Gorges Region through Small Baseline SAR Offset Tracking,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link 1802
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Hosseini, F.[Farnoush], Pichierri, M.[Manuele], Eppler, J.[Jayson], Rabus, B.[Bernhard],
Staring Spotlight TerraSAR-X SAR Interferometry for Identification and Monitoring of Small-Scale Landslide Deformation,
RS(10), No. 6, 2018, pp. xx-yy.
DOI Link 1806
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Zhao, F.[Feng], Mallorqui, J.J.[Jordi J.], Iglesias, R.[Rubén], Gili, J.A.[Josep A.], Corominas, J.[Jordi],
Landslide Monitoring Using Multi-Temporal SAR Interferometry with Advanced Persistent Scatterers Identification Methods and Super High-Spatial Resolution TerraSAR-X Images,
RS(10), No. 6, 2018, pp. xx-yy.
DOI Link 1806
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Bru, G.[Guadalupe], Escayo, J.[Joaquin], Fernández, J.[José], Mallorqui, J.J.[Jordi J.], Iglesias, R.[Rubén], Sansosti, E.[Eugenio], Abajo, T.[Tamara], Morales, A.[Antonio],
Suitability Assessment of X-Band Satellite SAR Data for Geotechnical Monitoring of Site Scale Slow Moving Landslides,
RS(10), No. 6, 2018, pp. xx-yy.
DOI Link 1806
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Mondini, A.C.[Alessandro C.], Santangelo, M.[Michele], Rocchetti, M.[Margherita], Rossetto, E.[Enrica], Manconi, A.[Andrea], Monserrat, O.[Oriol],
Sentinel-1 SAR Amplitude Imagery for Rapid Landslide Detection,
RS(11), No. 7, 2019, pp. xx-yy.
DOI Link 1904
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Hu, J.Y.[Ji-Yuan], Guo, J.M.[Ji-Ming], Xu, Y.[Yi], Zhou, L.[Lv], Zhang, S.[Shuai], Fan, K.[Kunfei],
Differential Ground-Based Radar Interferometry for Slope and Civil Structures Monitoring: Two Case Studies of Landslide and Bridge,
RS(11), No. 24, 2019, pp. xx-yy.
DOI Link 1912
BibRef

Park, S.E.[Sang-Eun], Lee, S.G.[Sun-Gu],
On the Use of Single-, Dual-, and Quad-Polarimetric SAR Observation for Landslide Detection,
IJGI(8), No. 9, 2019, pp. xx-yy.
DOI Link 1909
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Xu, Y.K.[Yuan-Kun], Kim, J.[Jinwoo], George, D.L.[David L.], Lu, Z.[Zhong],
Characterizing Seasonally Rainfall-Driven Movement of a Translational Landslide using SAR Imagery and SMAP Soil Moisture,
RS(11), No. 20, 2019, pp. xx-yy.
DOI Link 1910
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Jia, H.[Hongguo], Zhang, H.[Hao], Liu, L.[Luyao], Liu, G.X.[Guo-Xiang],
Landslide Deformation Monitoring by Adaptive Distributed Scatterer Interferometric Synthetic Aperture Radar,
RS(11), No. 19, 2019, pp. xx-yy.
DOI Link 1910
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Ge, P.[Pinglan], Gokon, H.[Hideomi], Meguro, K.[Kimiro], Koshimura, S.[Shunichi],
Study on the Intensity and Coherence Information of High-Resolution ALOS-2 SAR Images for Rapid Massive Landslide Mapping at a Pixel Level,
RS(11), No. 23, 2019, pp. xx-yy.
DOI Link 1912
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Eckerstorfer, M.[Markus], Vickers, H.[Hannah], Malnes, E.[Eirik], Grahn, J.[Jakob],
Near-Real Time Automatic Snow Avalanche Activity Monitoring System Using Sentinel-1 SAR Data in Norway,
RS(11), No. 23, 2019, pp. xx-yy.
DOI Link 1912
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Burrows, K.[Katy], Walters, R.J.[Richard J.], Milledge, D.[David], Spaans, K.[Karsten], Densmore, A.L.[Alexander L.],
A New Method for Large-Scale Landslide Classification from Satellite Radar,
RS(11), No. 3, 2019, pp. xx-yy.
DOI Link 1902
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Kang, Y.[Ya], Lu, Z.[Zhong], Zhao, C.[Chaoying], Zhang, Q.[Qin], Kim, J.W.[Jin-Woo], Niu, Y.[Yufen],
Diagnosis of Xinmo (China) Landslide Based on Interferometric Synthetic Aperture Radar Observation and Modeling,
RS(11), No. 16, 2019, pp. xx-yy.
DOI Link 1909
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Das, S.[Sourav], Tordesillas, A.[Antoinette],
Near Real-Time Characterization of Spatio-Temporal Precursory Evolution of a Rockslide from Radar Data: Integrating Statistical and Machine Learning with Dynamics of Granular Failure,
RS(11), No. 23, 2019, pp. xx-yy.
DOI Link 1912
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Jung, J.[Jungkyo], Yun, S.H.[Sang-Ho],
Evaluation of Coherent and Incoherent Landslide Detection Methods Based on Synthetic Aperture Radar for Rapid Response: A Case Study for the 2018 Hokkaido Landslides,
RS(12), No. 2, 2020, pp. xx-yy.
DOI Link 2001
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Aslan, G.[Gokhan], Foumelis, M.[Michael], Raucoules, D.[Daniel], De Michele, M.[Marcello], Bernardie, S.[Severine], Cakir, Z.[Ziyadin],
Landslide Mapping and Monitoring Using Persistent Scatterer Interferometry (PSI) Technique in the French Alps,
RS(12), No. 8, 2020, pp. xx-yy.
DOI Link 2004
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Solari, L.[Lorenzo], Del Soldato, M.[Matteo], Raspini, F.[Federico], Barra, A.[Anna], Bianchini, S.[Silvia], Confuorto, P.[Pierluigi], Casagli, N.[Nicola], Crosetto, M.[Michele],
Review of Satellite Interferometry for Landslide Detection in Italy,
RS(12), No. 8, 2020, pp. xx-yy.
DOI Link 2004
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Crippa, C.[Chiara], Franzosi, F.[Federico], Zonca, M.[Mattia], Manconi, A.[Andrea], Crosta, G.B.[Giovanni B.], Cas, L.D.[Luca Dei], Agliardi, F.[Federico],
Unraveling Spatial and Temporal Heterogeneities of Very Slow Rock-Slope Deformations with Targeted DInSAR Analyses,
RS(12), No. 8, 2020, pp. xx-yy.
DOI Link 2004
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Intrieri, E.[Emanuele], Frodella, W.[William], Raspini, F.[Federico], Bardi, F.[Federica], Tofani, V.[Veronica],
Using Satellite Interferometry to Infer Landslide Sliding Surface Depth and Geometry,
RS(12), No. 9, 2020, pp. xx-yy.
DOI Link 2005
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Meng, Q.[Qingkai], Confuorto, P.[Pierluigi], Peng, Y.[Ying], Raspini, F.[Federico], Bianchini, S.[Silvia], Han, S.[Shuai], Liu, H.[Haocheng], Casagli, N.[Nicola],
Regional Recognition and Classification of Active Loess Landslides Using Two-Dimensional Deformation Derived from Sentinel-1 Interferometric Radar Data,
RS(12), No. 10, 2020, pp. xx-yy.
DOI Link 2006
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Tzouvaras, M.[Marios], Danezis, C.[Chris], Hadjimitsis, D.G.[Diofantos G.],
Small Scale Landslide Detection Using Sentinel-1 Interferometric SAR Coherence,
RS(12), No. 10, 2020, pp. xx-yy.
DOI Link 2006
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Lowry, B.W.[Benjamin W], Baker, S.[Scott], Zhou, W.[Wendy],
A Case Study of Novel Landslide Activity Recognition Using ALOS-1 InSAR within the Ragged Mountain Western Hillslope in Gunnison County, Colorado, USA,
RS(12), No. 12, 2020, pp. xx-yy.
DOI Link 2006
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Rehman, M.U.[Mohib Ur], Zhang, Y.[Yi], Meng, X.M.[Xing-Min], Su, X.J.[Xiao-Jun], Catani, F.[Filippo], Rehman, G.[Gohar], Yue, D.X.[Dong-Xia], Khalid, Z.[Zainab], Ahmad, S.[Sajjad], Ahmad, I.[Ijaz],
Analysis of Landslide Movements Using Interferometric Synthetic Aperture Radar: A Case Study in Hunza-Nagar Valley, Pakistan,
RS(12), No. 12, 2020, pp. xx-yy.
DOI Link 2006
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Riedel, A., Riedel, B., Tengen, D., Gerke, M.,
Investigations On Vertical Land Movements Along The North Sea And Baltic Sea Coast in Germany With Ps Interferometry,
SARCon19(1945-1949).
DOI Link 1912
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Correa-Muñoz, N.A., Murillo-Feo, C.A.,
Detection of Landslides with SAR Polarymetry: Case Study of South-eastern Colombia,
Gi4DM18(177-184).
DOI Link 1805
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Mirzaee, S., Motagh, M., Akbari, B.,
Landslide Monitoring Using INSAR Time-series and GPS Observations, Case Study: Shabkola Landslide In Northern Iran,
Hannover17(487-492).
DOI Link 1805
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Vickers, H., Eckerstorfer, M., Malnes, E., Doulgeris, A.,
Synthetic Aperture Radar (SAR) Monitoring of Avalanche Activity: An Automated Detection Scheme,
SCIA17(II: 136-146).
Springer DOI 1706
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Nishio, M., Mori, M.,
Analysis Of Debris Flow Disaster Due To Heavy Rain By X-band Mp Radar Data,
ISPRS16(B8: 125-132).
DOI Link 1610
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Dwivedi, R., Narayan, A.B., Tiwari, A., Dikshit, O., Singh, A.K.,
Multi-temporal SAR Interferometry For Landslide Monitoring,
ISPRS16(B8: 55-58).
DOI Link 1610
BibRef

Nakano, T., Wada, K., Yamanaka, M., Kamiya, I., Nakajima, H.,
Precursory Slope Deformation Around Landslide Area Detected By Insar Throughout Japan,
ISPRS16(B1: 1201-1205).
DOI Link 1610
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Qu, T., Lu, P., Liu, C., Wan, H.,
Application Of Time Series Insar Technique For Deformation Monitoring Of Large-scale Landslides In Mountainous Areas Of Western China,
ISPRS16(B1: 89-91).
DOI Link 1610
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Pour, A.B.[Amin Beiranvand], Hashim, M.[Mazlan],
Geological Features Mapping Using Palsar-2 Data in Kelantan River Basin, Peninsular Malaysia,
GGT16(65-70).
DOI Link 1612
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Earlier:
Application Of Palsar-2 Remote Sensing Data For Landslide Hazard Mapping In Kelantan River Basin, Peninsular Malaysia,
ISPRS16(B8: 413-416).
DOI Link 1610
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Marapareddy, R.[Ramakalavathi], Aanstoos, J.V.[James V.], Younan, N.H.[Nicolas H.],
Unsupervised classification of SAR imagery using polarimetric decomposition to preserve scattering characteristics,
AIPR15(1-5)
IEEE DOI 1605
BibRef
And:
Classification of polarimetric SAR imagery using unsupervised H/alpha and extended H/alpha schemes to detect anomalies on earthen levees,
ICIP15(601-605)
IEEE DOI 1512
electromagnetic wave scattering. Classification; Earthen Levees; Synthetic Aperture Radar; UAVSAR See also Effect of vegetation height and volume scattering on soil moisture classification using synthetic aperture radar (SAR) images. BibRef

Aanstoos, J.V., Hasan, K., O'Hara, C.G., Dabbiru, L., Mahrooghy, M., Nobrega, R., Lee, M.A.,
Detection of slump slides on earthen levees using polarimetric SAR imagery,
AIPR12(1-7)
IEEE DOI 1307
neural nets BibRef

Dabbiru, L.[Lalitha], Aanstoos, J.V.[James V.], Hasan, K.[Khaled], Younan, N.H.[Nicolas H.], Li, W.[Wei],
Landslide detection on earthen levees with X-band and L-band radar data,
AIPR13(1-5)
IEEE DOI 1408
discrete wavelet transforms BibRef

Mahrooghy, M.[Majid], Aanstoos, J.V., Prasad, S., Younan, N.H.,
On Land Slide Detection Using Terrasar-x Over Earthen Levees,
ISPRS12(XXXIX-B3:497-501).
DOI Link 1209
BibRef

Lingua, A., Piatti, D., Rinaudo, F.,
Remote Monitoring of a Landslide Using an Integration of GB-InSAR and LIDAR Techniques,
ISPRS08(B1: 361 ff).
PDF File. 0807
BibRef

Chapter on Remote Sensing, Cartography, Aerial Images, Buildings, Roads, Terrain, ATR continues in
Landslide Susceptibility, Landslide Risk Analysi .