4.12.8.1.4 Surface Deformation, Subsidance From SAR Applied in Urban, City Areas

Chapter Contents (Back)
Shape from Radar. Surface Deformation. Ground Deformation. Deformation. Subsidence.

Pieraccini, M., Noferini, L., Mecatti, D., Atzeni, C., Teza, G., Galgaro, A., Zaltron, N.,
Integration of Radar Interferometry and Laser Scanning for Remote Monitoring of an Urban Site Built on a Sliding Slope,
GeoRS(44), No. 9, September 2006, pp. 2335-2342.
IEEE DOI 0609
BibRef

Bonano, M., Manunta, M., Pepe, A., Paglia, L., Lanari, R.,
From Previous C-Band to New X-Band SAR Systems: Assessment of the DInSAR Mapping Improvement for Deformation Time-Series Retrieval in Urban Areas,
GeoRS(51), No. 4, April 2013, pp. 1973-1984.
IEEE DOI 1304
BibRef

Peduto, D.[Dario], Cascini, L.[Leonardo], Arena, L.[Livia], Ferlisi, S.[Settimio], Fornaro, G.[Gianfranco], Reale, D.[Diego],
A general framework and related procedures for multiscale analyses of DInSAR data in subsiding urban areas,
PandRS(105), No. 1, 2015, pp. 186-210.
Elsevier DOI 1506
Multipass DInSAR techniques BibRef

Normand, J.C.L., Heggy, E.,
InSAR Assessment of Surface Deformations in Urban Coastal Terrains Associated With Groundwater Dynamics,
GeoRS(53), No. 12, December 2015, pp. 6356-6371.
IEEE DOI 1512
geomorphology BibRef

Minh, D.H.T.[Dinh Ho Tong], Trung, L.V.[Le Van], Toan, T.L.[Thuy Le],
Mapping Ground Subsidence Phenomena in Ho Chi Minh City through the Radar Interferometry Technique Using ALOS PALSAR Data,
RS(7), No. 7, 2015, pp. 8543.
DOI Link 1506
BibRef

Solari, L.[Lorenzo], Ciampalini, A.[Andrea], Raspini, F.[Federico], Bianchini, S.[Silvia], Moretti, S.[Sandro],
PSInSAR Analysis in the Pisa Urban Area (Italy): A Case Study of Subsidence Related to Stratigraphical Factors and Urbanization,
RS(8), No. 2, 2016, pp. 120.
DOI Link 1603
BibRef

Siddique, M.A., Wegmüller, U., Hajnsek, I., Frey, O.,
Single-Look SAR Tomography as an Add-On to PSI for Improved Deformation Analysis in Urban Areas,
GeoRS(54), No. 10, October 2016, pp. 6119-6137.
IEEE DOI 1610
BibRef
And: Corrections: GeoRS(55), No. 3, March 2017, pp. 1854-1854.
IEEE DOI 1703
radar interferometry BibRef

Montazeri, S., Zhu, X.X., Eineder, M., Bamler, R.,
Three-Dimensional Deformation Monitoring of Urban Infrastructure by Tomographic SAR Using Multitrack TerraSAR-X Data Stacks,
GeoRS(54), No. 12, December 2016, pp. 6868-6878.
IEEE DOI 1612
environmental monitoring (geophysics) BibRef

Chen, F.[Fulong], Wu, Y.H.[Yu-Hua], Zhang, Y.M.[Yi-Meng], Parcharidis, I.[Issaak], Ma, P.F.[Pei-Feng], Xiao, R.[Ruya], Xu, J.[Jia], Zhou, W.[Wei], Tang, P.P.[Pan-Pan], Foumelis, M.[Michael],
Surface Motion and Structural Instability Monitoring of Ming Dynasty City Walls by Two-Step Tomo-PSInSAR Approach in Nanjing City, China,
RS(9), No. 4, 2017, pp. xx-yy.
DOI Link 1705
BibRef

Gaber, A.[Ahmed], Darwish, N.[Noura], Koch, M.[Magaly],
Minimizing the Residual Topography Effect on Interferograms to Improve DInSAR Results: Estimating Land Subsidence in Port-Said City, Egypt,
RS(9), No. 7, 2017, pp. xx-yy.
DOI Link 1708
BibRef

Aimaiti, Y.J.[Yusupu-Jiang], Yamazaki, F.[Fumio], Liu, W.[Wen],
Multi-Sensor InSAR Analysis of Progressive Land Subsidence over the Coastal City of Urayasu, Japan,
RS(10), No. 8, 2018, pp. xx-yy.
DOI Link 1809
BibRef

Wang, X.Y.[Xia-Ying], Zhang, Q.[Qin], Zhao, C.Y.[Chao-Ying], Qu, F.F.[Fei-Fei], Zhang, J.Q.[Ju-Qing],
A Novel Method of Generating Deformation Time-Series Using Interferometric Synthetic Aperture Radar and Its Application in Mexico City,
RS(10), No. 11, 2018, pp. xx-yy.
DOI Link 1812
BibRef

Zhang, Z.J.[Zheng-Jia], Wang, C.[Chao], Wang, M.M.[Meng-Meng], Wang, Z.[Ziwei], Zhang, H.[Hong],
Surface Deformation Monitoring in Zhengzhou City from 2014 to 2016 Using Time-Series InSAR,
RS(10), No. 11, 2018, pp. xx-yy.
DOI Link 1812
BibRef

Bonì, R.[Roberta], Bosino, A.[Alberto], Meisina, C.[Claudia], Novellino, A.[Alessandro], Bateson, L.[Luke], McCormack, H.[Harry],
A Methodology to Detect and Characterize Uplift Phenomena in Urban Areas Using Sentinel-1 Data,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
BibRef

Ng, A.H.M.[Alex Hay-Man], Wang, H.[Hua], Dai, Y.[Yiwei], Pagli, C.[Carolina], Chen, W.B.[Wen-Bin], Ge, L.L.[Lin-Lin], Du, Z.Y.[Zhe-Yuan], Zhang, K.[Kui],
InSAR Reveals Land Deformation at Guangzhou and Foshan, China between 2011 and 2017 with COSMO-SkyMed Data,
RS(10), No. 6, 2018, pp. xx-yy.
DOI Link 1806
BibRef

Floris, M.[Mario], Fontana, A.[Alessandro], Tessari, G.[Giulia], Mulè, M.[Mariachiara],
Subsidence Zonation Through Satellite Interferometry in Coastal Plain Environments of NE Italy: A Possible Tool for Geological and Geomorphological Mapping in Urban Areas,
RS(11), No. 2, 2019, pp. xx-yy.
DOI Link 1902
BibRef

Wu, Q.[Qiong], Jia, C.T.[Chun-Ting], Chen, S.B.[Sheng-Bo], Li, H.Q.[Hong-Qing],
SBAS-InSAR Based Deformation Detection of Urban Land, Created from Mega-Scale Mountain Excavating and Valley Filling in the Loess Plateau: The Case Study of Yan'an City,
RS(11), No. 14, 2019, pp. xx-yy.
DOI Link 1908
BibRef

Chen, F.[Fulong], Zhou, W.[Wei], Chen, C.[Caifen], Ma, P.F.[Pei-Feng],
Extended D-TomoSAR Displacement Monitoring for Nanjing (China) City Built Structure Using High-Resolution TerraSAR/TanDEM-X and Cosmo SkyMed SAR Data,
RS(11), No. 22, 2019, pp. xx-yy.
DOI Link 1911
BibRef

Fryksten, J.[Jonas], Nilfouroushan, F.[Faramarz],
Analysis of Clay-Induced Land Subsidence in Uppsala City Using Sentinel-1 SAR Data and Precise Leveling,
RS(11), No. 23, 2019, pp. xx-yy.
DOI Link 1912
BibRef

Gido, N.A.A.[Nureldin A. A.], Bagherbandi, M.[Mohammad], Nilfouroushan, F.[Faramarz],
Localized Subsidence Zones in Gävle City Detected by Sentinel-1 PSI and Leveling Data,
RS(12), No. 16, 2020, pp. xx-yy.
DOI Link 2008
BibRef

Shahzad, N.[Naeem], Ding, X.L.[Xiao-Li], Wu, S.B.[Song-Bo], Liang, H.Y.[Hong-Yu],
Ground Deformation and Its Causes in Abbottabad City, Pakistan from Sentinel-1A Data and MT-InSAR,
RS(12), No. 20, 2020, pp. xx-yy.
DOI Link 2010
BibRef

Fadhillah, M.F.[Muhammad Fulki], Achmad, A.R.[Arief Rizqiyanto], Lee, C.W.[Chang-Wook],
Integration of InSAR Time-Series Data and GIS to Assess Land Subsidence along Subway Lines in the Seoul Metropolitan Area, South Korea,
RS(12), No. 21, 2020, pp. xx-yy.
DOI Link 2011
BibRef

de Wit, K.[Kim], Lexmond, B.R.[Bente R.], Stouthamer, E.[Esther], Neussner, O.[Olaf], Dörr, N.[Nils], Schenk, A.[Andreas], Minderhoud, P.S.J.[Philip S. J.],
Identifying Causes of Urban Differential Subsidence in the Vietnamese Mekong Delta by Combining InSAR and Field Observations,
RS(13), No. 2, 2021, pp. xx-yy.
DOI Link 2101
BibRef

Khan, R.[Rehan], Li, H.[Huan], Afzal, Z.[Zeeshan], Basir, M.[Muhammad], Arif, M.[Muhammad], Hassan, W.[Waqas],
Monitoring Subsidence in Urban Area by PSInSAR: A Case Study of Abbottabad City, Northern Pakistan,
RS(13), No. 9, 2021, pp. xx-yy.
DOI Link 2105
BibRef

Liao, M.J.[Ming-Jie], Zhang, R.[Rui], Lv, J.[Jichao], Yu, B.[Bin], Pang, J.[Jiatai], Li, R.[Ran], Xiang, W.[Wei], Tao, W.[Wei],
Subsidence Monitoring of Fill Area in Yan'an New District Based on Sentinel-1A Time Series Imagery,
RS(13), No. 15, 2021, pp. xx-yy.
DOI Link 2108
BibRef

Valente, E.[Ettore], Allocca, V.[Vincenzo], Riccardi, U.[Umberto], Camanni, G.[Giovanni], di Martire, D.[Diego],
Studying a Subsiding Urbanized Area from a Multidisciplinary Perspective: The Inner Sector of the Sarno Plain (Southern Apennines, Italy),
RS(13), No. 16, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Guo, L.[Lin], Gong, H.L.[Hui-Li], Ke, Y.H.[Ying-Hai], Zhu, L.[Lin], Li, X.J.[Xiao-Juan], Lyu, M.Y.[Ming-Yuan], Zhang, K.[Ke],
Mechanism of Land Subsidence Mutation in Beijing Plain under the Background of Urban Expansion,
RS(13), No. 16, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Li, F.[Fengkai], Gong, H.[Huili], Chen, B.B.[Bei-Bei], Gao, M.L.[Ming-Liang], Zhou, C.[Chaofan], Guo, L.[Lin],
Understanding the Influence of Building Loads on Surface Settlement: A Case Study in the Central Business District of Beijing Combining Multi-Source Data,
RS(13), No. 16, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Wei, Y.M.[Yu-Ming], Liu, X.J.[Xiao-Jie], Zhao, C.[Chaoying], Tomás, R.[Roberto], Jiang, Z.[Zhuo],
Observation of Surface Displacement Associated with Rapid Urbanization and Land Creation in Lanzhou, Loess Plateau of China with Sentinel-1 SAR Imagery,
RS(13), No. 17, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Lei, K.C.[Kun-Chao], Ma, F.S.[Feng-Shan], Chen, B.B.[Bei-Bei], Luo, Y.[Yong], Cui, W.J.[Wen-Jun], Zhou, Y.[Yi], Liu, H.[He], Sha, T.[Te],
Three-Dimensional Surface Deformation Characteristics Based on Time Series InSAR and GPS Technologies in Beijing, China,
RS(13), No. 19, 2021, pp. xx-yy.
DOI Link 2110
BibRef

Wnuk, K.[Kendall], Zhou, W.[Wendy], Gutierrez, M.[Marte],
Mapping Urban Excavation Induced Deformation in 3D via Multiplatform InSAR Time-Series,
RS(13), No. 23, 2021, pp. xx-yy.
DOI Link 2112
BibRef

Wang, Z.[Zhengyu], Liu, Y.L.[Yao-Lin], Zhang, Y.[Yang], Liu, Y.F.[Yan-Fang], Wang, B.S.[Bao-Shun], Zhang, G.X.[Guang-Xia],
Spatially Varying Relationships between Land Subsidence and Urbanization: A Case Study in Wuhan, China,
RS(14), No. 2, 2022, pp. xx-yy.
DOI Link 2201
BibRef

Bao, X.[Xin], Zhang, R.[Rui], Shama, A.[Age], Li, S.[Song], Xie, L.X.[Ling-Xiao], Lv, J.[Jichao], Fu, Y.[Yin], Wu, R.Z.[Ren-Zhe], Liu, G.X.[Guo-Xiang],
Ground Deformation Pattern Analysis and Evolution Prediction of Shanghai Pudong International Airport Based on PSI Long Time Series Observations,
RS(14), No. 3, 2022, pp. xx-yy.
DOI Link 2202
BibRef

Fotiou, K.[Kyriaki], Kakoullis, D.[Dimitris], Pekri, M.[Marina], Melillos, G.[George], Brcic, R.[Ramon], Eineder, M.[Michael], Hadjimitsis, D.G.[Diofantos G.], Danezis, C.[Chris],
Space-Based Displacement Monitoring of Coastal Urban Areas: The Case of Limassol's Coastal Front,
RS(14), No. 4, 2022, pp. xx-yy.
DOI Link 2202
BibRef

Yang, C.S.[Cheng-Sheng], Lv, S.[Sen], Hou, Z.[Zuhang], Zhang, Q.[Qin], Li, T.[Tao], Zhao, C.Y.[Chao-Ying],
Monitoring of Land Subsidence and Ground Fissure Activity within the Su-Xi-Chang Area Based on Time-Series InSAR,
RS(14), No. 4, 2022, pp. xx-yy.
DOI Link 2202
BibRef

Zhou, D.Y.[Ding-Yi], Zuo, X.Q.[Xiao-Qing], Zhao, Z.F.[Zhi-Fang],
Constructing a Large-Scale Urban Land Subsidence Prediction Method Based on Neural Network Algorithm from the Perspective of Multiple Factors,
RS(14), No. 8, 2022, pp. xx-yy.
DOI Link 2205
BibRef

Zhang, S.C.[Shuang-Cheng], Si, J.Z.[Jin-Zhao], Niu, Y.[Yufen], Zhu, W.[Wu], Fan, Q.[Qianyou], Hu, X.Q.[Xing-Qun], Zhang, C.B.[Chang-Bo], An, P.[Peng], Ren, Z.P.[Zhi-Peng], Li, Z.H.[Zhen-Hong],
Surface Deformation of Expansive Soil at Ankang Airport, China, Revealed by InSAR Observations,
RS(14), No. 9, 2022, pp. xx-yy.
DOI Link 2205
BibRef

Zhang, S.C.[Shuang-Cheng], Zhang, Y.[Yafei], Yu, J.[Jing], Fan, Q.[Qianyou], Si, J.Z.[Jin-Zhao], Zhu, W.[Wu], Song, M.X.[Ming-Xin],
Interpretation of the Spatiotemporal Evolution Characteristics of Land Deformation in Beijing during 2003-2020 Using Sentinel, ENVISAT, and Landsat Data,
RS(14), No. 9, 2022, pp. xx-yy.
DOI Link 2205
BibRef

Song, H.X.[Hong-Xia], Zhang, J.X.[Ji-Xian], Zuo, J.Z.[Jian-Zhang], Liang, X.L.[Xin-Lian], Han, W.L.[Wen-Li], Ge, J.[Juan],
Subsidence Detection for Urban Roads Using Mobile Laser Scanner Data,
RS(14), No. 9, 2022, pp. xx-yy.
DOI Link 2205
BibRef

Shi, X.L.[Xian-Lin], Chen, C.[Chen], Dai, K.[Keren], Deng, J.[Jin], Wen, N.L.[Ning-Ling], Yin, Y.[Yong], Dong, X.J.[Xiu-Jun],
Monitoring and Predicting the Subsidence of Dalian Jinzhou Bay International Airport, China by Integrating InSAR Observation and Terzaghi Consolidation Theory,
RS(14), No. 10, 2022, pp. xx-yy.
DOI Link 2206
BibRef

Chen, Y.L.[Yan-Ling], Liao, M.[Minyan], Wu, J.[Jicang], Li, X.B.[Xiao-Bo], Xiong, F.[Fuwen], Liu, S.J.[Shi-Jie], Feng, Y.J.[Yong-Jiu], Wang, X.Y.[Xiao-Ya],
Elastic and Inelastic Ground Deformation in Shanghai Lingang Area Revealed by Sentinel-1, Leveling, and Groundwater Level Data,
RS(14), No. 11, 2022, pp. xx-yy.
DOI Link 2206
BibRef

Zhu, K.[Kang], Zhang, X.[Xing], Sun, Q.[Qian], Wang, H.[Hai], Hu, J.[Jun],
Characterizing Spatiotemporal Patterns of Land Deformation in the Santa Ana Basin, Los Angeles, from InSAR Time Series and Independent Component Analysis,
RS(14), No. 11, 2022, pp. xx-yy.
DOI Link 2206
BibRef

Bai, Z.[Zechao], Wang, Y.P.[Yan-Ping], Balz, T.[Timo],
Beijing Land Subsidence Revealed Using PS-InSAR with Long Time Series TerraSAR-X SAR Data,
RS(14), No. 11, 2022, pp. xx-yy.
DOI Link 2206
BibRef

Jin, B.[Bijing], Yin, K.[Kunlong], Li, Q.[Qiuyang], Gui, L.[Lei], Yang, T.[Taohui], Zhao, B.B.[Bin-Bin], Guo, B.R.[Bao-Rui], Zeng, T.[Taorui], Ma, Z.Q.[Zhi-Qing],
Susceptibility Analysis of Land Subsidence along the Transmission Line in the Salt Lake Area Based on Remote Sensing Interpretation,
RS(14), No. 13, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Zhao, Y.Z.[Yi-Zhan], Zhou, L.[Lv], Wang, C.[Cheng], Li, J.H.[Jia-Hao], Qin, J.[Jie], Sheng, H.Q.[Hai-Quan], Huang, L.[Liangke], Li, X.[Xin],
Analysis of the Spatial and Temporal Evolution of Land Subsidence in Wuhan, China from 2017 to 2021,
RS(14), No. 13, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Khan, S.D.[Shuhab D.], Gadea, O.C.A.[Otto C. A.], Alvarado, A.T.[Alyssa Tello], Tirmizi, O.A.[Osman A.],
Surface Deformation Analysis of the Houston Area Using Time Series Interferometry and Emerging Hot Spot Analysis,
RS(14), No. 15, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Wang, Y.D.[Yue-Dong], Feng, G.C.[Guang-Cai], Li, Z.W.[Zhi-Wei], Luo, S.[Shuran], Wang, H.Y.[Hai-Yan], Xiong, Z.Q.[Zhi-Qiang], Zhu, J.J.[Jian-Jun], Hu, J.[Jun],
A Strategy for Variable-Scale InSAR Deformation Monitoring in a Wide Area: A Case Study in the Turpan-Hami Basin, China,
RS(14), No. 15, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Wang, T.[Ting], Zhang, R.[Rui], Zhan, R.[Runqing], Shama, A.[Age], Liao, M.J.[Ming-Jie], Bao, X.[Xin], He, L.[Liu], Zhan, J.Y.[Jun-Yu],
Subsidence Monitoring and Mechanism Analysis of Anju Airport in Suining Based on InSAR and Numerical Simulation,
RS(14), No. 15, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Cuervas-Mons, J.[José], Zêzere, J.L.[José Luis], Domínguez-Cuesta, M.J.[María José], Barra, A.[Anna], Reyes-Carmona, C.[Cristina], Monserrat, O.[Oriol], Oliveira, S.C.[Sergio Cruz], Melo, R.[Raquel],
Assessment of Urban Subsidence in the Lisbon Metropolitan Area (Central-West of Portugal) Applying Sentinel-1 SAR Dataset and Active Deformation Areas Procedure,
RS(14), No. 16, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Luo, Q.L.[Qing-Li], Li, J.[Jian], Zhang, Y.Z.[Yuan-Zhi],
Monitoring Subsidence over the Planned Jakarta-Bandung (Indonesia) High-Speed Railway Using Sentinel-1 Multi-Temporal InSAR Data,
RS(14), No. 17, 2022, pp. xx-yy.
DOI Link 2209
BibRef

Li, J.H.[Jia-Hao], Zhou, L.[Lv], Zhu, Z.[Zilin], Qin, J.[Jie], Xian, L.X.[Ling-Xiao], Zhang, D.[Di], Huang, L.[Ling],
Surface Deformation Mechanism Analysis in Shanghai Areas Based on TS-InSAR Technology,
RS(14), No. 17, 2022, pp. xx-yy.
DOI Link 2209
BibRef


Wang, X.Q., Zhang, P., Wang, Y.S., Sun, Z.Y.,
Study on the Characteristics of Beijing Subsidence Based On Ps-insar/leveling and Primary Investigation of the Relationship With Fault Zone,
ISPRS21(B3-2021: 859-864).
DOI Link 2201
BibRef

Huang, G., Chen, H., Li, X., Cheng, G., Yu, Z., Gu, H.,
Monitoring The Surface Subsidence of Handan City Using Sentinel-1a Images and Sbas-insar Technology,
SARCon19(1933-1937).
DOI Link 1912
BibRef

Li, Y., Zhang, R.,
Monitoring of Deformation of The Foguang Temple's East Main Hall Under The Concept of Preventive Conservation,
CIPA19(675-678).
DOI Link 1912
BibRef

Yang, K.J., Jiang, X.X., Cao, L., Lei, F., Zeng, H., Zhang, Z.,
The Correlation Analysis of Subsidence Monitoring By D-insar And The Change of Urban Construction Land,
Hannover17(311-315).
DOI Link 1805
BibRef

Balik Sanli, F., Calò, F., Abdikan, S., Pepe, A., Gorum, T.,
Analysis of deformation patterns through advanced DINSAR techniques in Istanbul megacity,
Thematic14(19-21).
DOI Link 1404
BibRef

Wu, H.A., Zhang, Y.H., Luo, G.F., Mao, W.H., Kang, Y.H., Jin, Y.,
Ground subsidence monitoring over Jiaxing region, Zhejiang province from 2006 to 2010 using time series InSAR technique,
IWIDF15(181-184).
DOI Link 1508
BibRef

Wang, Z.Y.[Zhi-Yong], Zhang, J.X.[Ji-Xian], Huang, G.M.[Guo-Man], Zhang, Y.H.[Yong-Hong],
Monitoring Land Subsidence in Suzhou City Using D-InSAR Technique,
CISP09(1-4).
IEEE DOI 0910
BibRef

Chapter on Computational Vision, Regularization, Connectionist, Morphology, Scale-Space, Perceptual Grouping, Wavelets, Color, Sensors, Optical, Laser, Radar continues in
Microwave Sensors and Analysis .


Last update:Dec 4, 2022 at 15:58:45