2021
[1] Yang Z, Zhu J*, Xie J, et al., Resolving 3D Mining Displacements from Multi-Track InSAR by Incorporating with a Prior Model: The Dynamic Changes and Adaptive Estimation of the Model Parameters[J]. IEEE Transactions on Geoscience and Remote Sensing, 2021, DOI: 10.1109/TGRS.2021.3093058
[2] Yang Z, Xu B*, Li Z*, et al., Prediction of Mining-induced Kinematic 3D Displacements from InSAR Using a Weibull Model and a Kalman Filter[J]. IEEE Transactions on Geoscience and Remote Sensing, 2021, DOI: 10.1109/TGRS.2021.3055854
2020
[3] Yang Z, Li Z*, Zhu J, et al., Use of SAR/InSAR in mining deformation monitoring, parameter inversion, and forward predictions: a review[J]. IEEE Geoscience and Remote Sensing Magazine, 2020, 8(1): 71-90. (SCI,JCR: Q1, IF=13.0, IF Top 1 in Remote Sensing,特邀论文)
[4] Yang Z, Zhang Q, Ding X*, et al., Analysis of the quality of daily DEM generation with geosynchronous InSAR[J], Engineering, 2020, 6(8): 913-918 (SCI, JCR: Q1, IF=6.50,封面论文)
[5] Wu S, Yang Z, Ding X*, et al., Two decades of settlement of Hong Kong International Airport measured with multi-temporal InSAR[J], Remote Sensing of Environment, 2020, 248: 111976. (SCI, JCR: Q1, IF=9.09)
[6] Wang Y, Yang Z*, Li Z, et al. Fusing adjacent-track InSAR datasets to densify the temporal resolution of time-series 3-D displacement estimation over mining areas with a prior deformation model and a generalized weighting least-squares method[J]. Journal of Geodesy, 2020, 94: 1-17. (SCI, JCR: Q1, IF=4.81)
[7] Zhou C, Zhang G*, Yang Z*, et al., An adaptive terrain-dependent method for SRTM DEM correction over mountainous areas[J], IEEE Access, 2020, 8: 130878-130887. (SCI, JCR: Q1, IF=3.75)
[8] Zhou C, Zhang G*, Yang Z*, et al., A novel image registration algorithm using wavelet transform and matrix-multiply discrete fourier transform[J], IEEE Geoscience and Remote Sensing Letters, 2020, Accepted, DOI: 10.1109/LGRS.2020.3031335. (SCI, JCR: Q2, IF=3.83)
[9] Wang H., Fu H., Zhu J., Feng G., Yang Z., Wang C., Yu, Y. Correction of Time-Varying Baseline Errors Based on Multibaseline Airborne Interferometric Data Without High-Precision DEMs[J]. IEEE Transactions on Geoscience and Remote Sensing, 2020.
[10] 刘善军,吴立新,毛亚纯,贺黎明,王植,许志华,魏恋欢,杨泽发. 天-空-地协同的露天矿边坡智能监测技术及典型应用,煤炭学报, 2020,45(06):2265-2276.
2019
[11] 朱建军, 杨泽发*, 李志伟. InSAR矿区地表三维形变监测与预计研究进展[J]. 测绘学报, 2019, 48(02):5-14. (EI)
2018
[12] Yang Z, Li Z*, Zhu J, et al. Locating and defining underground goaf caused by coal mining from space-borne SAR interferometry[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 2018, 135: 112-126. (SCI,JCR: Q1, IF =7.32)
[13] Yang Z, Li Z*, Zhu J, et al. An alternative method for estimating 3-D large displacements of mining areas from a single SAR amplitude pair using offset tracking[J]. IEEE Transactions on Geoscience and Remote Sensing, 2018, 56(7): 3645-3656. (SCI,JCR: Q1, IF=5.86)
[14] Yang Z, Li Z*, Zhu J, et al. Time-Series 3-D Mining-Induced Large Displacement Modeling and Robust Estimation From a Single-Geometry SAR Amplitude Data Set[J]. IEEE Transactions on Geoscience and Remote Sensing, 2018, 56(6): 3600-3610. (SCI,JCR: Q1, IF=5.86)
[15] Yang Z, Li Z*, Zhu J, et al. High-Resolution Three-Dimensional Displacement Retrieval of Mining Areas From a Single SAR Amplitude Pair Using the SPIKE Algorithm[J]. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2018, 11(10): 3782 - 3793. (SCI,JCR: Q2, IF=3.83)
[16] Yang Z, Li Z*, Zhu J, et al. Deriving time-series three-dimensional displacements of mining areas from a single-geometry InSAR dataset[J]. Journal of Geodesy, 2018, 92(5): 529-544. (SCI,JCR: Q1, IF=5.28)
[17] Yang Z, Li Z*, Zhu J, et al. An InSAR-based temporal probability integral method and its application for predicting mining-induced dynamic deformations and assessing progressive damage to surface buildings[J]. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2018, 11(2): 472-484. (SCI,JCR: Q2, IF=3.83)
[18] Peng X, Wang C*, Li X*, Du Y, Fu H, Yang Z, & Xie Q. Three-dimensional structure inversion of buildings with nonparametric iterative adaptive approach using SAR tomography[J]. Remote Sensing, 2018, 10(7), 1004. (SCI,JCR: Q1, IF=4.51)
2017
[19] Yang Z, Li Z*, Zhu J, et al. An extension of the InSAR-based probability integral method and its application for predicting 3-D mining-induced displacements under different extraction conditions[J]. IEEE Transactions on Geoscience and Remote Sensing, 2017, 55(7): 3835-3845. (SCI,JCR: Q1, IF=5.86)
[20] Yang Z, Li Z*, Zhu J, et al. Retrieving 3-D large displacements of mining areas from a single amplitude pair of SAR using offset tracking[J]. Remote Sensing, 2017, 9(4): 338. (SCI,JCR: Q1, IF=4.51)
[21] Yang Z, Li Z*, Zhu J, et al. Deriving dynamic subsidence of coal mining areas using InSAR and logistic model[J]. Remote Sensing, 2017, 9(2): 125. (SCI,JCR: Q1, IF=4.51)
2016
[22] Yang Z, Li Z*, Zhu J, et al. InSAR-based model parameter estimation of probability integral method and its application for predicting mining-induced horizontal and vertical displacements[J]. IEEE Transactions on Geoscience and Remote Sensing, 2016, 54(8): 4818-4832. (SCI,JCR: Q1, IF=5.86)
[23] 杨泽发, 易辉伟*, 朱建军,等. 基于InSAR时序形变的矿区全盆地沉降时空演化规律分析. 中国有色金属学报, 2016, 26(7):1515-1522. (EI)
2015
[24] Li Z W, Yang Z*, Zhu J J, et al. Retrieving three-dimensional displacement fields of mining areas from a single InSAR pair[J]. Journal of Geodesy, 2015, 89(1): 17-32. (SCI,JCR: Q1, IF=5.28)
[25] 杨泽发, 朱建军*, 李志伟,等. 联合InSAR和水准数据的矿区动态沉降规律分析. 中南大学学报(自然科学版), 2015(10):3743-3751. (EI)