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GIScience & Remote Sensing Volume 52, 2015 - Issue 1
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Original Articles

A comprehensive interferometric process for monitoring land deformation using ASAR and PALSAR satellite interferometric data

Younes Dehghan-SorakiInnovative Space Science and Applications Research Group, Iranian Space Research Centre, Tehran, Iran
,
Mohammad SharifikiaDepartment of Remote Sensing, Tarbiat Modares University, Tehran, IranCorrespondence[email protected]
&
Mahmod Reza SahebiDepartment of Remote Sensing, K.N. Toosi University of Technology, Tehran, Iran
Pages 58-77 | Received 26 May 2014, Accepted 16 Nov 2014, Published online: 19 Jan 2015

Citations (12)

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Read on this site (8)

Zohreh Masoumi, Zahra Mousavi & Zahra Hajeb. (2022) Long-term investigation of subsidence rate and its environmental effects using the InSAR technique and geospatial analyses. Geocarto International 37:24, pages 7161-7185.
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Omid Ghorbanzadeh, Thomas Blaschke, Jagannath Aryal & Khalil Gholaminia. (2020) A new GIS-based technique using an adaptive neuro-fuzzy inference system for land subsidence susceptibility mapping. Journal of Spatial Science 65:3, pages 401-418.
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Xiaoxiao Zhao, Beibei Chen, Huili Gong, Chaofan Zhou, Xiaojuan Li, Kunchao Lei & Yinghai Ke. (2020) Land subsidence along the Beijing–Tianjin Intercity Railway during the period of the South-to-North Water Diversion Project. International Journal of Remote Sensing 41:12, pages 4447-4469.
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Fariba Mohammadimanesh, Bahram Salehi, Masoud Mahdianpari, Jerry English, Joseph Chamberland & Pierre-Jean Alasset. (2019) Monitoring surface changes in discontinuous permafrost terrain using small baseline SAR interferometry, object-based classification, and geological features: a case study from Mayo, Yukon Territory, Canada. GIScience & Remote Sensing 56:4, pages 485-510.
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Suresh Krishnan P.V.Duk-jin Kim & Jungkyo Jung. (2018) Subsidence in the Kathmandu Basin, before and after the 2015 Mw 7.8 Gorkha Earthquake, Nepal Revealed from Small Baseline Subset-DInSAR Analysis. GIScience & Remote Sensing 55:4, pages 604-621.
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Zeng Deng, Yinghai Ke, Huili Gong, Xiaojuan Li & Zhenhong Li. (2017) Land subsidence prediction in Beijing based on PS-InSAR technique and improved Grey-Markov model. GIScience & Remote Sensing 54:6, pages 797-818.
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Wen-Feng Chen, Hui-Li Gong, Bei-Bei Chen, Kai-Si Liu, Mingliang Gao & Chao-Fan Zhou. (2017) Spatiotemporal evolution of land subsidence around a subway using InSAR time-series and the entropy method. GIScience & Remote Sensing 54:1, pages 78-94.
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Chaofan Zhou, Huili Gong, Beibei Chen, Feng Zhu, Guangyao Duan, Mingliang Gao & Wei Lu. (2016) Land subsidence under different land use in the eastern Beijing plain, China 2005-2013 revealed by InSAR timeseries analysis. GIScience & Remote Sensing 53:6, pages 671-688.
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Articles from other publishers (4)

Kyra H. Adams, John T. Reager, Paul Rosen, David N. Wiese, Tom G. Farr, Shanti Rao, Bruce J. Haines, Donald F. Argus, Zhen Liu, Ryan Smith, James S. Famiglietti & Matthew Rodell. (2022) Remote Sensing of Groundwater: Current Capabilities and Future Directions. Water Resources Research 58:10.
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Yi He, Wenhui Wang, Haowen Yan, Lifeng Zhang, Youdong Chen & Shuwen Yang. (2020) Characteristics of Surface Deformation in Lanzhou with Sentinel-1A TOPS. Geosciences 10:3, pages 99.
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Omid Ghorbanzadeh, Hashem Rostamzadeh, Thomas Blaschke, Khalil Gholaminia & Jagannath Aryal. (2018) A new GIS-based data mining technique using an adaptive neuro-fuzzy inference system (ANFIS) and k-fold cross-validation approach for land subsidence susceptibility mapping. Natural Hazards 94:2, pages 497-517.
Crossref
Yongyong Li, Huili Gong, Lin Zhu & Xiaojuan Li. (2017) Measuring Spatiotemporal Features of Land Subsidence, Groundwater Drawdown, and Compressible Layer Thickness in Beijing Plain, China. Water 9:1, pages 64.
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