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2020 – today
- 2024
- [j83]Yanan Jiang, Linfeng Zheng, Qiang Xu, Zhong Lu:
Deformation mechanism-assisted deep learning architecture for predicting step-like displacement of reservoir landslide. Int. J. Appl. Earth Obs. Geoinformation 133: 104121 (2024) - [j82]Xiaochuan Tang, Xiaochuang Yan, Xiaojun Yuan, Xin Liu, Zhong Lu, Yu Wang, Hao Zhong, Dongfen Li, Filippo Catani:
FedLD: Federated Learning for Privacy-Preserving Collaborative Landslide Detection. IEEE Geosci. Remote. Sens. Lett. 21: 1-5 (2024) - [j81]Xuerong Chen, Chaoying Zhao, Zhong Lu, Jiangbo Xi:
Landslide Inventory Mapping Based on Independent Component Analysis and UNet3+: A Case of Jiuzhaigou, China. IEEE J. Sel. Top. Appl. Earth Obs. Remote. Sens. 17: 2213-2223 (2024) - [j80]Xinyou Song, Lei Zhang, Zhong Lu, Jicang Wu, Ruiqing Song, Hongyu Liang, Weiwei Bian:
Toward Retrieving Discontinuous Deformation of Bridges by MTInSAR With Adaptive Segmentation. IEEE Trans. Geosci. Remote. Sens. 62: 1-15 (2024) - [c26]Adrian A. Borsa, David Bekaert, Andrea Donnellan, Eric J. Fielding, Zhong Lu, Franz Meyer, Paul Rosen, Mark Simons, Ekaterina Tymofyeyeva, Amy Whetter, Howard Zebker, Robert Zinke, Simon Zwieback:
Validation of NISAR Mission Requirements for Solid Earth Deformation Using GNSS. IGARSS 2024: 6675-6677 - [c25]Xinyou Song, Lei Zhang, Zhong Lu:
Retrieval of Discontinuous Deformation Induced by Thermal Expansion and Contraction of Bridges with Adaptive MTInSAR. IGARSS 2024: 10673-10676 - 2023
- [j79]Vamshi Karanam, Zhong Lu:
Hydrocarbon production induced land deformation over Permian Basin; analysis using persistent scatterer interferometry and numerical modeling. Int. J. Appl. Earth Obs. Geoinformation 122: 103424 (2023) - [j78]Baocheng Lei, Lei Zhang, Jicang Wu, Zhong Lu, Hongyu Liang:
Enhancing InSAR Coherence Estimation Through Local Phase Surface Modeling. IEEE Geosci. Remote. Sens. Lett. 20: 1-5 (2023) - [j77]Songbo Wu, Xiaoli Ding, Mi Jiang, Bochen Zhang, Zhong Lu:
A Sparse Parameter Mode for MT-InSAR Deformation Retrieval and Uncertainty Assessment. IEEE Geosci. Remote. Sens. Lett. 20: 1-5 (2023) - [j76]Baohang Wang, Chaoying Zhao, Qin Zhang, Xiaojie Liu, Zhong Lu, Chuanjin Liu, Jianxia Zhang:
Sequential DS-ISBAS InSAR Deformation Parameter Dynamic Estimation and Quality Evaluation. Remote. Sens. 15(8): 2097 (2023) - [j75]Yakun Han, Tao Li, Keren Dai, Zhong Lu, Xinzhe Yuan, Xianlin Shi, Chen Liu, Ningling Wen, Xi Zhang:
Revealing the Land Subsidence Deceleration in Beijing (China) by Gaofen-3 Time Series Interferometry. Remote. Sens. 15(14): 3665 (2023) - [j74]Yanan Jiang, Lu Liao, Huiyuan Luo, Xing Zhu, Zhong Lu:
Multi-Scale Response Analysis and Displacement Prediction of Landslides Using Deep Learning with JTFA: A Case Study in the Three Gorges Reservoir, China. Remote. Sens. 15(16): 3995 (2023) - [j73]Liye Yang, Zhong Lu, Chaojun Ouyang, Chaoying Zhao, Xie Hu, Qin Zhang:
Glacial Lake Outburst Flood Monitoring and Modeling through Integrating Multiple Remote Sensing Methods and HEC-RAS. Remote. Sens. 15(22): 5327 (2023) - [j72]Dawei Cheng, Zhong Lu, Jia Zhou, Xihui Liang:
An optimizing maintenance policy for airborne redundant systems operating with faults by using Markov process and NSGA-II. Reliab. Eng. Syst. Saf. 236: 109257 (2023) - [j71]Shuai Wang, Zhong Lu, Bin Wang, Yufen Niu, Chuang Song, Xing Li, Zhang-Feng Ma, Caijun Xu:
A Phase-Based InSAR Tropospheric Correction Method for Interseismic Deformation Based on Short-Period Interferograms. IEEE Trans. Geosci. Remote. Sens. 61: 1-18 (2023) - [c24]Vamshi Karanam, Zhong Lu, Jin-Woo Kim:
Hydrocarbon Production Induced Land Deformation Over Delaware Basin, Analysed Using Persistent Scatterer Interferometry. IGARSS 2023: 1846-1849 - [c23]David Bekaert, Nicholas Arena, M. Grace Bato, Brett Buzzanga, Marin Govorcin, Emre Havazli, Kirk Hogenson, Hook Hua, Andrew Johnston, Mohammed Karim, Joseph H. Kennedy, Zhong Lu, Charlie Z. Marshak, Franz Meyer, Susan Owen, Simran Sangha, Gregory Short, Jiahui Wang, Robert Zinke:
The Aria-S1-Gunw: The ARIA Sentinel-1 Geocoded Unwrapped Phase Product for Open Insar Science and Disaster Response. IGARSS 2023: 2850-2853 - 2022
- [j70]Yonghong Zhang, Jujie Wei, M. Duan, Yonghui Kang, Q. He, Hongan Wu, Zhong Lu:
Coherent pixel selection using a dual-channel 1-D CNN for time series InSAR analysis. Int. J. Appl. Earth Obs. Geoinformation 112: 102927 (2022) - [j69]Songbo Wu, Bochen Zhang, Xiaoli Ding, Naeem Shahzad, Lei Zhang, Zhong Lu:
A hybrid method for MT-InSAR phase unwrapping for deformation monitoring in urban areas. Int. J. Appl. Earth Obs. Geoinformation 112: 102963 (2022) - [j68]Yanan Jiang, Huiyuan Luo, Qiang Xu, Zhong Lu, Lu Liao, Huajin Li, Lina Hao:
A Graph Convolutional Incorporating GRU Network for Landslide Displacement Forecasting Based on Spatiotemporal Analysis of GNSS Observations. Remote. Sens. 14(4): 1016 (2022) - [j67]Feifei Qu, Qin Zhang, Yufen Niu, Zhong Lu, Shuai Wang, Chaoying Zhao, Wu Zhu, Wei Qu, Chengsheng Yang:
Mapping the Recent Vertical Crustal Deformation of the Weihe Basin (China) Using Sentinel-1 and ALOS-2 ScanSAR Imagery. Remote. Sens. 14(13): 3182 (2022) - [j66]Lei Zhang, Zhong Lu:
Advances in InSAR Imaging and Data Processing - A Review. Remote. Sens. 14(17): 4307 (2022) - [j65]Xuerong Chen, Chaoying Zhao, Jiangbo Xi, Zhong Lu, Shunping Ji, Liquan Chen:
Deep Learning Method of Landslide Inventory Map with Imbalanced Samples in Optical Remote Sensing. Remote. Sens. 14(21): 5517 (2022) - [j64]Yuanyuan Liu, Xia Yan, Yuanping Xia, Bo Liu, Zhong Lu, Mei Yu:
Characterizing Spatiotemporal Patterns of Land Subsidence after the South-to-North Water Diversion Project Based on Sentinel-1 InSAR Observations in the Eastern Beijing Plain. Remote. Sens. 14(22): 5810 (2022) - 2021
- [j63]Yonghong Zhang, Hongan Wu, Mingju Li, Yonghui Kang, Zhong Lu:
Investigating Ground Subsidence and the Causes over the Whole Jiangsu Province, China Using Sentinel-1 SAR Data. Remote. Sens. 13(2): 179 (2021) - [j62]Baohang Wang, Qin Zhang, Antonio Pepe, Pietro Mastro, Chaoying Zhao, Zhong Lu, Wu Zhu, Chengsheng Yang, Jing Zhang:
Analysis of Groundwater Depletion/Inflation and Freeze-Thaw Cycles in the Northern Urumqi Region with the SBAS Technique and an Adjusted Network of Interferograms. Remote. Sens. 13(11): 2144 (2021) - [j61]Yuankun Xu, Zhong Lu, Jin-Woo Kim:
P-Band InSAR for Geohazard Detection over Forested Terrains: Preliminary Results. Remote. Sens. 13(22): 4575 (2021) - [j60]Baohang Wang, Chaoying Zhao, Qin Zhang, Zhong Lu, Antonio Pepe:
Long-Term Continuously Updated Deformation Time Series From Multisensor InSAR in Xi'an, China From 2007 to 2021. IEEE J. Sel. Top. Appl. Earth Obs. Remote. Sens. 14: 7297-7309 (2021) - [j59]Hongyu Liang, Lei Zhang, Xiaoli Ding, Zhong Lu, Xin Li, Jun Hu, Songbo Wu:
Suppression of Coherence Matrix Bias for Phase Linking and Ambiguity Detection in MTInSAR. IEEE Trans. Geosci. Remote. Sens. 59(2): 1263-1274 (2021) - [c22]Mark Simons, David Bekaert, Adrian A. Borsa, Andrea Donnellan, Eric J. Fielding, Cathleen E. Jones, Rowena Lohman, Zhong Lu, Franz Meyer, Susan Owen, Paul A. Rosen, Howard A. Zebker:
Nisar Requirements and Validation Approach for Solid Earth Science. IGARSS 2021: 543-546 - 2020
- [j58]Baohang Wang, Chaoying Zhao, Qin Zhang, Zhong Lu, Zhenhong Li, Yuanyuan Liu:
Sequential Estimation of Dynamic Deformation Parameters for SBAS-InSAR. IEEE Geosci. Remote. Sens. Lett. 17(6): 1017-1021 (2020) - [j57]Yufen Niu, Shuai Wang, Wu Zhu, Qin Zhang, Zhong Lu, Chaoying Zhao, Wei Qu:
The 2014 Mw 6.1 Ludian Earthquake: The Application of RADARSAT-2 SAR Interferometry and GPS for this Conjugated Ruptured Event. Remote. Sens. 12(1): 99 (2020) - [j56]Yeqiao Wang, Zhong Lu, Yongwei Sheng, Yuyu Zhou:
Remote Sensing Applications in Monitoring of Protected Areas. Remote. Sens. 12(9): 1370 (2020) - [j55]Yusuf Eshqi Molan, Zhong Lu:
Can InSAR Coherence and Closure Phase Be Used to Estimate Soil Moisture Changes? Remote. Sens. 12(9): 1511 (2020) - [j54]Francesca Cigna, Deodato Tapete, Zhong Lu:
Remote Sensing of Volcanic Processes and Risk. Remote. Sens. 12(16): 2567 (2020) - [j53]Wei Qu, Yaxi Han, Zhong Lu, Dongdong An, Qin Zhang, Yuan Gao:
Co-Seismic and Post-Seismic Temporal and Spatial Gravity Changes of the 2010 Mw 8.8 Maule Chile Earthquake Observed by GRACE and GRACE Follow-on. Remote. Sens. 12(17): 2768 (2020) - [j52]Liye Yang, Chaoying Zhao, Zhong Lu, Chengsheng Yang, Qin Zhang:
Three-Dimensional Time Series Movement of the Cuolangma Glaciers, Southern Tibet with Sentinel-1 Imagery. Remote. Sens. 12(20): 3466 (2020) - [j51]Yakun Han, Jingui Zou, Zhong Lu, Feifei Qu, Ya Kang, Jiangwei Li:
Ground Deformation of Wuhan, China, Revealed by Multi-Temporal InSAR Analysis. Remote. Sens. 12(22): 3788 (2020) - [j50]Jinqi Zhao, Yonglei Chang, Jie Yang, Yufen Niu, Zhong Lu, Pingxiang Li:
A Novel Change Detection Method Based on Statistical Distribution Characteristics Using Multi-Temporal PolSAR Data. Sensors 20(5): 1508 (2020) - [j49]Mengdao Xing, Zhong Lu, Hanwen Yu:
InSAR Signal and Data Processing. Sensors 20(13): 3801 (2020) - [j48]Zhihui Yuan, Zhong Lu, Lifu Chen, Xuemin Xing:
A Closed-Form Robust Cluster-Analysis-Based Multibaseline InSAR Phase Unwrapping and Filtering Algorithm With Optimal Baseline Combination Analysis. IEEE Trans. Geosci. Remote. Sens. 58(6): 4251-4262 (2020) - [j47]Yusuf Eshqi Molan, Zhong Lu:
Modeling InSAR Phase and SAR Intensity Changes Induced by Soil Moisture. IEEE Trans. Geosci. Remote. Sens. 58(7): 4967-4975 (2020) - [j46]Yusuf Eshqi Molan, Zhong Lu, Jin-Woo Kim:
Influence of the Statistical Properties of Phase and Intensity on Closure Phase. IEEE Trans. Geosci. Remote. Sens. 58(10): 7346-7354 (2020) - [c21]Yanan Jiang, Qiang Xu, Zhong Lu:
Landslide Displacement Monitoring by Time Series InSAR Combining PS and DS Targets. IGARSS 2020: 1011-1014
2010 – 2019
- 2019
- [j45]Zhong Lu, Li Dong, Jia Zhou:
Nonlinear Least Squares Estimation for Parameters of Mixed Weibull Distributions by Using Particle Swarm Optimization. IEEE Access 7: 60545-60554 (2019) - [j44]Wei Qu, Bing Zhang, Zhong Lu, Jin-Woo Kim, Qin Zhang, Yuan Gao, Ming Hao, Wu Zhu, Feifei Qu:
Source Parameter Estimation of the 2009 Ms6.0 Yao'an Earthquake, Southern China, Using InSAR Observations. Remote. Sens. 11(4): 462 (2019) - [j43]Mimi Peng, Chaoying Zhao, Qin Zhang, Zhong Lu, Zhongsheng Li:
Research on Spatiotemporal Land Deformation (2012-2018) over Xi'an, China, with Multi-Sensor SAR Datasets. Remote. Sens. 11(6): 664 (2019) - [j42]Feifei Qu, Zhong Lu, Jin-Woo Kim, Weiyu Zheng:
Identify and Monitor Growth Faulting Using InSAR over Northern Greater Houston, Texas, USA. Remote. Sens. 11(12): 1498 (2019) - [j41]Ya Kang, Zhong Lu, Chaoying Zhao, Qin Zhang, Jin-Woo Kim, Yufen Niu:
Diagnosis of Xinmo (China) Landslide Based on Interferometric Synthetic Aperture Radar Observation and Modeling. Remote. Sens. 11(16): 1846 (2019) - [j40]Yuankun Xu, Jin-Woo Kim, David L. George, Zhong Lu:
Characterizing Seasonally Rainfall-Driven Movement of a Translational Landslide using SAR Imagery and SMAP Soil Moisture. Remote. Sens. 11(20): 2347 (2019) - [j39]Yuanyuan Liu, Zhong Lu, Chaoying Zhao, Jinwoo Kim, Qin Zhang, Juan de la Fuente:
Characterization of the Kinematics of Three Bears Landslide in Northern California Using L-band InSAR Observations. Remote. Sens. 11(23): 2726 (2019) - [j38]Hongyu Liang, Lei Zhang, Xiaoli Ding, Zhong Lu, Xin Li:
Toward Mitigating Stratified Tropospheric Delays in Multitemporal InSAR: A Quadtree Aided Joint Model. IEEE Trans. Geosci. Remote. Sens. 57(1): 291-303 (2019) - [j37]Lei Zhang, Hongguo Jia, Zhong Lu, Hongyu Liang, Xiaoli Ding, Xin Li:
Minimizing Height Effects in MTInSAR for Deformation Detection Over Built Areas. IEEE Trans. Geosci. Remote. Sens. 57(11): 9167-9176 (2019) - [j36]Hongyu Liang, Lei Zhang, Zhong Lu, Xin Li:
Nonparametric Estimation of DEM Error in Multitemporal InSAR. IEEE Trans. Geosci. Remote. Sens. 57(12): 10004-10014 (2019) - [c20]Xiaojie Liu, Chaoying Zhao, Qin Zhang, Zhong Lu, Fuchu Dai:
Investigating the Deformation History and Failure Mechanism of Heifangtai Loess Landslide, China with Multi-Source Sar Data. IGARSS 2019: 2074-2077 - 2018
- [j35]Teng Wang, Kimberly Degrandpre, Zhong Lu, Jeffrey T. Freymueller:
Complex surface deformation of Akutan volcano, Alaska revealed from InSAR time series. Int. J. Appl. Earth Obs. Geoinformation 64: 171-180 (2018) - [j34]Chengsheng Yang, Zhong Lu, Qin Zhang, Chaoying Zhao, Jian-bing Peng, Lingyun Ji:
Deformation at longyao ground fissure and its surroundings, north China plain, revealed by ALOS PALSAR PS-InSAR. Int. J. Appl. Earth Obs. Geoinformation 67: 1-9 (2018) - [j33]Chang-Wook Lee, Zhong Lu, Jin-Woo Kim, Sungjae Park:
Mapping Pyroclastic Flow Inundation Using Radar and Optical Satellite Images and Lahar Modeling. J. Sensors 2018: 8217565:1-8217565:12 (2018) - [j32]Yusuf Eshqi Molan, Jin-Woo Kim, Zhong Lu, Piyush Shanker Agram:
L-Band Temporal Coherence Assessment and Modeling Using Amplitude and Snow Depth over Interior Alaska. Remote. Sens. 10(1): 150 (2018) - [j31]Chaoying Zhao, Zhong Lu:
Remote Sensing of Landslides - A Review. Remote. Sens. 10(2): 279 (2018) - [j30]Yusuf Eshqi Molan, Jin-Woo Kim, Zhong Lu, Bruce K. Wylie, Zhiliang Zhu:
Modeling Wildfire-Induced Permafrost Deformation in an Alaskan Boreal Forest Using InSAR Observations. Remote. Sens. 10(3): 405 (2018) - [j29]Chaoying Zhao, Ya Kang, Qin Zhang, Zhong Lu, Bin Li:
Landslide Identification and Monitoring along the Jinsha River Catchment (Wudongde Reservoir Area), China, Using the InSAR Method. Remote. Sens. 10(7): 993 (2018) - [j28]Xiaojie Liu, Chaoying Zhao, Qin Zhang, Jian-bing Peng, Wu Zhu, Zhong Lu:
Multi-Temporal Loess Landslide Inventory Mapping with C-, X- and L-Band SAR Datasets - A Case Study of Heifangtai Loess Landslides, China. Remote. Sens. 10(11): 1756 (2018) - [j27]Sankarambadi Navneet, Jin-Woo Kim, Zhong Lu:
A New InSAR Persistent Scatterer Selection Technique Using Top Eigenvalue of Coherence Matrix. IEEE Trans. Geosci. Remote. Sens. 56(4): 1969-1978 (2018) - [j26]Ning Cao, Hyongki Lee, Evan Zaugg, Ramesh L. Shrestha, William E. Carter, Craig L. Glennie, Zhong Lu, Hanwen Yu:
Estimation of Residual Motion Errors in Airborne SAR Interferometry Based on Time-Domain Backprojection and Multisquint Techniques. IEEE Trans. Geosci. Remote. Sens. 56(4): 2397-2407 (2018) - [c19]Ekene Gabriel Okafor, Emmanuel Okechukwu Ezugwu, Paul Olugbeji Jemitola, Youchao Sun, Zhong Lu:
Multistate System Reliability Modeling Using Copula Function. ICSRS 2018: 135-141 - [c18]Hongyu Liang, Lei Zhang, Xiaoli Ding, Zhong Lu, Xin Li:
A Joint Model for Isolating Stratified Tropospheric Delays in Multi-Temporal Insar. IGARSS 2018: 2258-2261 - 2017
- [j25]Yuanyuan Jia, Jin-Woo Kim, C. K. Shum, Zhong Lu, Xiaoli Ding, Lei Zhang, Kamil Erkan, Chung-Yen Kuo, Kun Shang, Kuo-Hsin Tseng, Yuchan Yi:
Characterization of Active Layer Thickening Rate over the Northern Qinghai-Tibetan Plateau Permafrost Region Using ALOS Interferometric Synthetic Aperture Radar Data, 2007-2009. Remote. Sens. 9(1): 84 (2017) - [j24]Jinqi Zhao, Jie Yang, Zhong Lu, Pingxiang Li, Wensong Liu, Le Yang:
A Novel Method of Change Detection in Bi-Temporal PolSAR Data Using a Joint-Classification Classifier Based on a Similarity Measure. Remote. Sens. 9(8): 846 (2017) - [j23]Ya Kang, Chaoying Zhao, Qin Zhang, Zhong Lu, Bin Li:
Application of InSAR Techniques to an Analysis of the Guanling Landslide. Remote. Sens. 9(10): 1046 (2017) - [j22]Zhong Lu, Xihui Liang, Ming Jian Zuo, Jia Zhou:
Markov process based time limited dispatch analysis with constraints of both dispatch reliability and average safety levels. Reliab. Eng. Syst. Saf. 167: 84-94 (2017) - [j21]Ning Cao, Hyongki Lee, Evan Zaugg, Ramesh L. Shrestha, William E. Carter, Craig L. Glennie, Guoquan Wang, Zhong Lu, Juan Carlos Fernandez Diaz:
Airborne DInSAR Results Using Time-Domain Backprojection Algorithm: A Case Study Over the Slumgullion Landslide in Colorado With Validation Using Spaceborne SAR, Airborne LiDAR, and Ground-Based Observations. IEEE J. Sel. Top. Appl. Earth Obs. Remote. Sens. 10(11): 4987-5000 (2017) - [j20]Yanan Du, Lei Zhang, Guangcai Feng, Zhong Lu, Qian Sun:
On the Accuracy of Topographic Residuals Retrieved by MTInSAR. IEEE Trans. Geosci. Remote. Sens. 55(2): 1053-1065 (2017) - [j19]Jun Hu, Xiaoli Ding, Lei Zhang, Qian Sun, Zhiwei Li, Jianjun Zhu, Zhong Lu:
Estimation of 3-D Surface Displacement Based on InSAR and Deformation Modeling. IEEE Trans. Geosci. Remote. Sens. 55(4): 2007-2016 (2017) - [c17]Xie Hu, Zhong Lu, Thomas Oommen, Teng Wang, Jinwoo Kim:
Monitoring and modeling tailings impoundment settlement near Great Salt Lake (UTAH) using multi-platform time-series InSAR observations. IGARSS 2017: 40-43 - [c16]Jin-Woo Kim, Zhong Lu:
Temporal deformation of wink sinkholes in west texas observed by spaceborne SAR imagery. IGARSS 2017: 67-70 - [c15]Feifei Qu, Zhong Lu, Jin-Woo Kim:
New faults detection by multi-temporal InSAR over Greater Houston, Texas. IGARSS 2017: 71-74 - [c14]Ning Cao, Hyongki Lee, Evan Zaugg, Ramesh L. Shrestha, William E. Carter, Craig L. Glennie, Guoquan Wang, Zhong Lu, Juan Carlos Fernandez Diaz:
Evaluation of an airborne SAR system for deformation mapping: A case study over the slumgullion landslide. IGARSS 2017: 1684-1687 - [c13]Jinqi Zhao, Jie Yang, Zhong Lu, Pingxiang Li, Wensong Liu:
Change detection based on similarity measure and joint classification for polarimetric SAR images. IGARSS 2017: 1896-1899 - [c12]Xie Hu, Zhong Lu, Teng Wang, Thomas C. Pierson, Jinwoo Kim, Thomas H. Cecere:
Time-series InSAR analysis of Cascade landslide complex, Washington, USA. IGARSS 2017: 5093-5096 - 2016
- [j18]Lauren N. Schaefer, Zhong Lu, Thomas Oommen:
Post-Eruption Deformation Processes Measured Using ALOS-1 and UAVSAR InSAR at Pacaya Volcano, Guatemala. Remote. Sens. 8(1): 73 (2016) - [j17]Jin-Woo Kim, Zhong Lu, Kimberly Degrandpre:
Ongoing Deformation of Sinkholes in Wink, Texas, Observed by Time-Series Sentinel-1A SAR Interferometry (Preliminary Results). Remote. Sens. 8(4): 313 (2016) - [c11]Yufen Niu, Chaoying Zhao, Qin Zhang, Wu Zhu, Chengsheng Yang, Zhong Lu:
Research on CR-based offset technique for mining deformation monitoring. IGARSS 2016: 2893-2896 - [c10]Feifei Qu, Qin Zhang, Chaoying Zhao, Zhong Lu, Juqing Zhang, Jing Zhang:
Simultaneous estimation of building height and ground deformation over Xi'an City, China using multi-temporal InSAR method. IGARSS 2016: 4960-4963 - 2015
- [j16]Feifei Qu, Zhong Lu, Michael P. Poland, Jeffrey T. Freymueller, Qin Zhang, Hyung-Sup Jung:
Post-Eruptive Inflation of Okmok Volcano, Alaska, from InSAR, 2008-2014. Remote. Sens. 7(12): 16778-16794 (2015) - [j15]Qing Zhao, Antonio Pepe, Wei Gao, Zhong Lu, Manuela Bonano, Man L. He, Jun Wang, Xi Tang:
A DInSAR Investigation of the Ground Settlement Time Evolution of Ocean-Reclaimed Lands in Shanghai. IEEE J. Sel. Top. Appl. Earth Obs. Remote. Sens. 8(4): 1763-1781 (2015) - [j14]Hyung-Sup Jung, Zhong Lu, Andrew Shepherd, Tim J. Wright:
Simulation of the SuperSAR Multi-Azimuth Synthetic Aperture Radar Imaging System for Precise Measurement of Three-Dimensional Earth Surface Displacement. IEEE Trans. Geosci. Remote. Sens. 53(11): 6196-6206 (2015) - [c9]Antonio Pepe, Qing Zhao, Manuela Bonano, Zhong Lu, Yiwei Zhou:
The study of the deformation time evolution in coastal areas of Shanghai: A joint C/X-band SBAS-DInSAR analysis. IGARSS 2015: 306-309 - [c8]Chang-Wook Lee, Zhong Lu, Jin-Woo Kim, Seul-Ki Lee:
Volcanic activity analysis of Mt. sinabung in Indonesia using InSAR and GIS techniques. IGARSS 2015: 4793-4796 - 2014
- [j13]Zhen Liu, Hyung-Sup Jung, Zhong Lu:
Joint Correction of Ionosphere Noise and Orbital Error in L-Band SAR Interferometry of Interseismic Deformation in Southern California. IEEE Trans. Geosci. Remote. Sens. 52(6): 3421-3427 (2014) - [j12]Lei Zhang, Xiaoli Ding, Zhong Lu, Hyung-Sup Jung, Jun Hu, Guangcai Feng:
A Novel Multitemporal InSAR Model for Joint Estimation of Deformation Rates and Orbital Errors. IEEE Trans. Geosci. Remote. Sens. 52(6): 3529-3540 (2014) - 2013
- [j11]Hyung-Sup Jung, Zhong Lu, Lei Zhang:
Feasibility of Along-Track Displacement Measurement From Sentinel-1 Interferometric Wide-Swath Mode. IEEE Trans. Geosci. Remote. Sens. 51(1): 573-578 (2013) - [j10]Hyung-Sup Jung, Dong-Taek Lee, Zhong Lu, Joong-Sun Won:
Ionospheric Correction of SAR Interferograms by Multiple-Aperture Interferometry. IEEE Trans. Geosci. Remote. Sens. 51(5-2): 3191-3199 (2013) - 2011
- [j9]Yonghong Zhang, Jixian Zhang, Hongan Wu, Zhong Lu, Guangtong Sun:
Monitoring of urban subsidence with SAR interferometric point target analysis: A case study in Suzhou, China. Int. J. Appl. Earth Obs. Geoinformation 13(5): 812-818 (2011) - [j8]Hyung-Sup Jung, Zhong Lu, Joong-Sun Won, Michael P. Poland, Asta Miklius:
Mapping Three-Dimensional Surface Deformation by Combining Multiple-Aperture Interferometry and Conventional Interferometry: Application to the June 2007 Eruption of Kilauea Volcano, Hawaii. IEEE Geosci. Remote. Sens. Lett. 8(1): 34-38 (2011) - [j7]Elijah W. Ramsey III, Zhong Lu, Yukihiro Suzuoki, Amina Rangoonwala, Dirk Werle:
Monitoring Duration and Extent of Storm-Surge and Flooding in Western Coastal Louisiana Marshes With Envisat ASAR Data. IEEE J. Sel. Top. Appl. Earth Obs. Remote. Sens. 4(2): 387-399 (2011) - [j6]Lei Zhang, Xiaoli Ding, Zhong Lu:
Modeling PSInSAR Time Series Without Phase Unwrapping. IEEE Trans. Geosci. Remote. Sens. 49(1-2): 547-556 (2011) - [c7]Wenyu Gong, Franz Meyer, Peter W. Webley, Zhong Lu:
Methods of InSAR atmosphere correction for volcano activity monitoring. IGARSS 2011: 1654-1657 - 2010
- [j5]Zhong Lu, Jixian Zhang, Yonghong Zhang, Daniel Dzurisin:
Monitoring and characterizing natural hazards with satellite InSAR imagery. Ann. GIS 16(1): 55-66 (2010) - [c6]Zhong Lu, Andrew Rice, Juan Vasquez, John P. Kerekes:
Target discrimination via optimal wavelength band selection with synthetic hyperspectral imagery. WHISPERS 2010: 1-4
2000 – 2009
- 2009
- [j4]Yonghong Zhang, Jixian Zhang, Zhong Lu, Wenyu Gong:
A New Numerical Method for Calculating Extrema of Received Power for Polarimetric SAR. IEEE Geosci. Remote. Sens. Lett. 6(4): 666-670 (2009) - 2008
- [j3]Zhong Lu, Oh-Ig Kwoun:
Radarsat-1 and ERS InSAR Analysis Over Southeastern Coastal Louisiana: Implications for Mapping Water-Level Changes Beneath Swamp Forests. IEEE Trans. Geosci. Remote. Sens. 46(8): 2167-2184 (2008) - 2007
- [c5]