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1、代表性论文:
[1] zhou, zhiwei, lin liu, liming jiang, wanpeng feng and sergey v samsonov (2019). "using long-term sar backscatter data to monitor post-fire vegetation recovery in tundra environment." remote sensing 11(19): 2230.
[2] liu, lin, liming jiang, yongling sun, hansheng wang, yafei sun and houze xu (2019). "diurnal fluctuations of glacier surface velocity observed with terrestrial radar interferometry at laohugou no. 12 glacier, western qilian mountains, china." journal of glaciology 65(250): 239-248.
[3] liu, lin, liming jiang, houjun jiang, hansheng wang, ning ma and houze xu (2019). "accelerated glacier mass loss (2011–2016) over the puruogangri ice field in the inner tibetan plateau revealed by bistatic insar measurements." remote sensing of environment 231: 111241.
[4] huang, ronggang, liming jiang, hansheng wang and bisheng yang (2019). "a bidirectional analysis method for extracting glacier crevasses from airborne lidar point clouds." remote sensing 11(20): 2373.
[5] dong, jinglong, qiang shen, liming jiang, houjun jiang, dewei li, hansheng wang and song mao (2019). "an analysis of spatiotemporal baseline and effective spatial coverage for lunar-based sar repeat-track interferometry." ieee journal of selected topics in applied earth observations and remote sensing 12(9): 3458-3469.
[6] ma, peifeng, weixi wang, bowen zhang, jili wang, guoqiang shi, guangqing huang, fulong chen, liming jiang and hui lin (2019). "remotely sensing large-and small-scale ground subsidence: a case study of the guangdong–hong kong–macao greater bay area of china." remote sensing of environment 232: 111282.
[7] zhang, zhimin, liming jiang, lin liu, yafei sun and hansheng wang (2018). "annual glacier-wide mass balance (2000–2016) of the interior tibetan plateau reconstructed from modis albedo products." remote sensing 10(7): 1031.
[8] jiang, l., l. bai, y. zhao, g. cao, h. wang and q. sun (2018). "combining insar and hydraulic head measurements to estimate aquifer parameters and storage variations of confined aquifer system in cangzhou, north china plain." water resources research 54(10): 8234-8252.
[9] huang, lingcao, lin liu, liming jiang and tingjun zhang (2018). "automatic mapping of thermokarst landforms from remote sensing images using deep learning: a case study in the northeastern tibetan plateau." remote sensing 10(12): 2067.
[10] huang, ronggang, liming jiang, xiang shen, zhen dong, qiaoli zhou, bisheng yang and hansheng %j landslides wang (2018). "an efficient method of monitoring slow-moving landslides with long-range terrestrial laser scanning: a case study of the dashu landslide in the three gorges reservoir region, china." landslides.
[11] sun, qishi, liming jiang, mi jiang, hui lin, peifeng ma and hansheng wang (2018). "monitoring coastal reclamation subsidence in hong kong with distributed scatterer interferometry." remote sensing 10(11): 1738.
[12] sun, yafei, liming jiang, lin liu, qishi sun, hansheng wang and houtse hsu (2018). "mapping glacier elevations and their changes in the western qilian mountains, northern tibetan plateau, by bistatic insar." ieee journal of selected topics in applied earth observations and remote sensing 11(1): 68-78.
[13] liming, jiang (2017). ground-based radar. the international encyclopedia of geography: people, the earth, environment, and technology. d. richardson. hoboken, nj, john wiley & sons.
[14] sun, yongling, liming jiang, lin liu, yafei sun and hansheng wang (2017). "spatial-temporal characteristics of glacier velocity in the central karakoram revealed with 1999–2003 landsat-7 etm pan images." remote sensing 9(10): 1064.
[15] liu, lin, li-ming jiang and hong-zhong li (2016). "improved smb speckle filtering of polarimetric sar data with synergistic use of orientation angle compensation and spatial majority rule." journal of central south university 23(6): 1508-1514.
[16] liu, lin, liming jiang, yafei sun, hansheng wang, chaolu yi and houtse hsu (2016). "morphometric controls on glacier mass balance of the puruogangri ice field, central tibetan plateau." water 8(11): 496.
[17] liu, lin, liming jiang, yafei sun, chaolu yi, hansheng wang and houtse hsu (2016). "glacier elevation changes (2012–2016) of the puruogangri ice field on the tibetan plateau derived from bi-temporal tandem-x insar data." international journal of remote sensing 37(24): 5687-5707.
[18] wang, mingzhou, tao li and liming jiang (2016). "monitoring reclaimed lands subsidence in hong kong with insar technique by persistent and distributed scatterers." natural hazards: 1-13
[19] bai, lin, liming jiang, hansheng wang and qishi sun (2016). "spatiotemporal characterization of land subsidence and uplift (2009–2010) over wuhan in central china revealed by terrasar-x insar analysis." remote sensing 8(4): 350.
[20] xiang, longwei, hansheng wang, holger steffen, patrick wu, lulu jia, liming jiang and qiang shen (2016). "groundwater storage changes in the tibetan plateau and adjacent areas revealed from grace satellite gravity data." earth and planetary science letters 449: 228-239.
[21] kargel, js, gj leonard, dan h shugar, uk haritashya, a bevington, ej fielding, k fujita, m geertsema, es miles and j steiner (2016). "geomorphic and geologic controls of geohazards induced by nepal’s 2015 gorkha earthquake." science 351(6269): aac8353.
[22] wang, hansheng, longwei xiang, patrick wu, lulu jia, liming jiang, qiang shen and holger steffen (2015). "influences of crustal thickening in the tibetan plateau on loading modeling and inversion associated with water storage variation." geodesy and geodynamics 6(3): 161-172.
[23] wang, hansheng, longwei xiang, lulu jia, patrick wu, holger steffen, liming jiang and qiang shen (2015). "water storage changes in north america retrieved from grace gravity and gps data." geodesy and geodynamics 6(4): 267-273.
[24] hu, bo, han-sheng wang and li-ming jiang (2013). "monitoring of reclamation-induced ground subsidence in macao (china) using psinsar technique." journal of central south university 20: 1039-1046.
[25] wang, hansheng, longwei xiang, patrick wu, holger steffen, lulu jia, liming jiang and qiang shen (2013). "effects of the tibetan plateau crustal structure on the inversion of water trend rates using simulated grace/gps data." terrestrial, atmospheric & oceanic sciences 24(4).
[26] liu, l., l. jiang and h. wang (2012). extraction of glacier surface elevation and velocity in high asia with ers-1/2 tandem sar data: application to puruogangri ice field, tibetan plateau. geoscience and remote sensing symposium (igarss), 2012 ieee international, ieee.
[27] li, hong zhong, jin song chen, li ming jiang and lin liu (2012). "preservation of polarimetric properties filtering for tsx data based on barnes decomposition." selected topics in applied earth observations and remote sensing, ieee journal of 5(6): 1831-1836.
[28] wang, hansheng, longwei xiang, lulu jia, liming jiang, zhiyong wang, bo hu and peng gao (2012). "load love numbers and green's functions for elastic earth models prem, iasp91, ak135, and modified models with refined crustal structure from crust 2.0." computers & geosciences 49: 190-199.
[29] wang, hansheng, lulu jia, holger steffen, patrick wu, liming jiang, houtse hsu, longwei xiang, zhiyong wang and bo hu (2012). "increased water storage in north america and scandinavia from grace gravity data." nature geoscience.
[30] jiang, liming, hui lin and shilai cheng (2011). "monitoring and assessing reclamation settlement in coastal areas with advanced insar techniques: macao city (china) case study." international journal of remote sensing 32(13): 3565-3588.
[31] jiang, liming, hui lin, jianwei ma, bing kong and yao wang (2011). "potential of small-baseline sar interferometry for monitoring land subsidence related to underground coal fires: wuda (northern china) case study." remote sensing of environment 115(2): 257-268.
[32] wang, h., p. wu, l. jia, b. hu and l. jiang (2011). "the role of glacial isostatic adjustment in the present-day crustal motion and sea levels of east asia." earth, planets and space 63(8): 915-928.
[33] jiang, liming and hui lin (2010). "integrated analysis of sar interferometric and geological data for investigating long-term reclamation settlement of chek lap kok airport, hong kong." engineering geology 110(3-4): 77-92.
[34] jiang, liming, hui lin and fang liu (2010). "application of envisat scansar interferometry to large-scale fault creep: a case study of the xianshuihe fault in the eastern tibetan margin area." annals of gis 16(2): 113-119.
[35] jiang, liming, mingsheng liao, hui lin and limin yang (2009). "synergistic use of optical and insar data for urban impervious surface mapping: a case study in hong kong." international journal of remote sensing 30(11): 2781 - 2796.
[36] jiang, liming, hui lin and qing zhao (2009). "spatial and temporal deformation characteristics of marine alluvial deposits due to land reclamation: implications from insar observation and geotechnical estimate." earth surface processes and landforms 35(3): 331-343.
[37] zhao, qing, hui lin, liming jiang, fulong chen and shilai cheng (2009). "a study of ground deformation in the guangzhou urban area with persistent scatterer interferometry." sensors 9(1): 503-518.
[38] liao, mingsheng, liming jiang and hui lin (2008). "urban change detection based on coherence and intensity characteristics of sar imagery." photogrammetric engineering & remote sensing, 74(8): 999–1006.
[39] liao, m., c. wang, y. wang and l. jiang (2008). "using sar images to detect ships from sea clutter." geoscience and remote sensing letters, ieee 5(2): 194-198.
[40] jiang, liming, mingsheng liao, lu zhang and hui lin (2007). "unsupervised change detection in multitemporal sar images using mrf models." geo-spatial information science 10(2): 111-116.
2、专著和专利
[1] liming, j. (2017). ground-based radar. the international encyclopedia of geography: people, the earth, environment, and technology. d. richardson. hoboken, nj, john wiley & sons.
[2] 李新, 车涛, 李新武, 黄春林, 胡斯勒图, 江利明, 邱玉宝等 (2019). 《冰冻圈遥感学》, 科学出版社.
[3] 江利明,孙亚飞,一种基于tandem-x双站insar的地震滑坡高分辨率高精度物源厚度提取方法,国家发明专利,zl 2015 1 054898 1. 8,已授权。
[4] 江利明,孙奇石,一种快速稳健的基于雷达分布式目标的地面沉降监测方法,国家发明专利,申请号201910937924. 7,已受理。
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