李新武

中国科学院空天信息创新研究院

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  • 李新武
  • 研究员
  • 北京市海淀区邓庄南路9号,中国科学院遥感与数字地球研究所

简 历:

李新武,男,2002年在中国科学院遥感应用研究所获得博士学位,现为中国科学院空天信息研究院研究员/博士生导师。主要研究方向为环境雷达遥感、全球环境变化遥感、极地环境遥感、生态环境遥感和城市环境遥感等。主持和参加了包括国家自然科学基金青年基金、面上基金、重点基金和重大基金、国家973基础研究计划、国家863高技术和国家科技支撑计划和中国科学院战略性先导专项课题等20余项,发表论文共140余篇,其中被SCI检索60余篇(第一作者/通讯作者36篇);合著《全球变化科学卫星》、《Remote Sensing Time Series: Revealing Land Surface Dynamics》、《冰冻圈遥感学》和《新型SAR地物目标识别理论与方法》专著4部。协助完成国务院咨询报告3份,其中两份已获国家领导人批示;2004年获得北京市科学技术奖(基础类)一等奖1项,2014年获得联合国“全球脉动奖”,是46个国家中9个获奖项目之一,也是我国的唯一获奖项目。2019年入选海南省“南海名家”培育计划。现担任中国-欧盟土壤与土地专家委员会(SEPLS)委员,数字“一带一路”国际计划环境变化工作组联合主席。

教育背景:

1999/9–2002/7,中国科学院大学,地图学与地理信息系统,博士,导师:郭华东

1996/9–1999/7,中国地质大学(北京),应用地球物理,硕士,导师:杨旭

1992/9–1996/7,华东地质学院,应用地球物理,学士,导师:熊章强

工作经历:

2018/01-至今,中国科学院空天信息研究院,研究员/室主任

2012/09-2017/12,中国科学院遥感与数字地球研究所,副研究员/研究员/室主任

2008/01-2012/08,中国科学院对地观测与数字地球科学中心,副研究员

2008/10-2009/03,法国雷恩第一大学雷恩电子与通讯研究所(IETR),访问学者,

2007/09-2008/02,加拿大自然资源部加拿大遥感中心(CCRS),访问学者

2002/07-2007/12,中国科学院遥感应用研究所,助理研究员

研究生培养:

1. 已独立培养硕士5名,联合培养硕士11名,联合培养博士8名和博士后1名,正在联培国际留学博士生1名。

2. 与国际知名遥感专家:Ridha Touzi,Eric Pottier(中国科学院爱因斯坦讲席教授),Laurent Ferro-Famil,Howard Epstein(中国科学院特聘教授)和Stefano Tebaldini博士等有很好的学生培养合作关系。

社会任职:研究方向:

主要研究方向为环境雷达遥感、极地环境遥感、全球变化遥感、生态环境遥感和城市环境遥感。

承担科研项目情况:

1. “海南省自然保护区生态空间遥感监测与信息服务平台建设”, 主持, 研究所(学校), 2019.1-2020.12,90万元,在研,主持

2. 中国科学院战略性先导科技专项(A类),XDA19070200,“遥感三极:协同与对比”,2018.1-2022.12,2312.74万元,在研,主持

3.国家自然科学基金面上项目,41571360,“基于压缩感知的层析SAR典型地物三维结构参数反演模型与方法研究”,2016.1-2019.12,71.2万元,在研,主持

4.“一带一路”区域生态环境动态分析”,2016.1-2020.12,100万元,在研,主持。

5.国家973基础研究计划,“多角度SAR辐射和几何校正方法研究”,2015.7-2017.12,100万元,已结题,主持。

6.国家科技支撑计划, 2012BAH27B05, “中亚地区环境变化与自然资源遥感监测技术和应用,2012.1-2014.12, 578万元,已结题,主持

7.国家973基础研究计划,2009CB723906, “多平台遥感观测科学实验与环境信息模拟”,2009.1-2013.12,890万元,已结题,参加(执行负责人)

8.国家自然科学基金重点项目,61132006,“SAR信息一体化处理与环境参数反演”,2012.1-2016.12,300万元,已结题,参加(执行负责人)

9.国家自然科学基金国际合作中大项目,41120114001,“全球环境变化遥感对比研究”,2012.1-2016.12,300万元,已结题,参加(执行负责人)

10.国家自然科学基金面上项目,41076129,“主被动微波遥感南极冰盖冻融探测方法与应用研究”,2011.1-2013.12,46万元,已结题,主持

11.“航空遥感系统验证实验”,2010.6-2014.11,1410万元,已结题,参与

12.“遥感设备图像质量评价支撑子系统”,2010.6-2014.12,30万元,已结题,参与

13.国家863高技术研究与发展计划,2008AA121702 -1,“南极冰盖冻融变化探测技术研究”专题,2009.10-2011.12,50万元,已结题,主持

14.中国科学院重大国际合作项目,GJHZ200814,“全球环境变化遥感对比研究计划(ABCC 计划),2009.11-2012.12,90万元,已结题,参加

15.国家自然科学基金青年基金项目,40501050,“极化干涉干涉SAR植被覆盖区土壤水分反演”,2006.1-2008.12,27万元,结题,主持

16.国家863计划,2001AA132040, “多模式全极化干涉雷达信息处理与分析技术”,2002.1-2003.12, 120万元,结题,参加

17.国家自然科学基金重点项目,49989001,“新型成像雷达对地观测机理及地物识别技术”,1999.1-2002.12,结题,参加

代表论著:

专著:

1. 全球变化科学卫星,郭华东、傅文学和李新武等,科学出版社,2014年

2. Remote Sensing Time Series: Revealing Land Surface Dynamics,Kuenzer Claudia, Dech Stefan,Wagner Wolfgang等,Springer,2015年

3. 冰冻圈遥感学,科学出版社,2019

4. 新型SAR地物目标识别理论与方法,高等教育出版社,2019

代表性论文(2014-至今)SCI 38篇

[1] Xing Peng, Xinwu Li, Changcheng Wang, Jianjun Zhu, Lei Liang, Yanan Du, Haiqiang Fu, Yanan Du, Zefa Yang, Qinghua Xie. SPICE-based SAR Tomography over Forest Areas Using a Small Number of P-band Airborne F-SAR Dataset Characterized by Non-uniformly Distributed Baselines. Remote Sensing, 2019.

[2] Wu, Wenjin, Li, Hailei, Li, Xinwu, Guo, Huadong, & Zhang, Lu, PolSAR Image Semantic Segmentation Based on Deep Transfer Learning. IEEE Geoscience and Remote Sensing Letters, pp. 1-5, 2019.

[3] Xing Peng, Changcheng Wang, Xinwu Li, Yanan Du, Haiqiang Fu, Zefa Yang, Qinghua Xie. Three-Dimensional Structure Inversion of Buildings with Nonparametric Iterative Adaptive Approach Using SAR Tomography. Remote Sensing, 2018, 10(7):1004.

[4] Xing Peng, Xinwu Li, Changcheng Wang, Haiqiang Fu, Yanan Du. A Maximum Likelihood Based Nonparametric Iterative Adaptive Method of Synthetic Aperture Radar Tomography and Its Application for Estimating Underlying Topography and Forest Height. Sensors, 2018, 18(8):2459.

[5] LIANG Lei,ZHOU Chenghu,LI Xinwu,GAO Xizhang and WU Wenjin,Comparision of methods for Polarimetric SAR Tomography with Small Number of Baselines in Forested areas,Chinese Journal of Electronics,2018.

[6] Wu W,Li Xinwu,Guo H,Liang L., Millimeter-Wave Ultrahigh Resolution SAR Image Classification Based on a New Feature Set, IEEE Geoscience and Remote Sensing Letters, doi: 10.1109/LGRS.2018.2830794,2018.

[7] Yin Siyang, Wu Wenjin, Li Xinwu. Comparison of temporal and spatial changes in three major tropical forests based on MODIS data[J]. Journal of Forestry Research, 2018(4).

[8] Wenjin Wu, Hailei Li, Lu Zhang, Xinwu Li, and Huadong Guo, 5. High-Resolution PolSAR Scene Classification with Pretrained Deep Convnets and Manifold Polarimetric Parameters, IEEE Transactions on Geoscience and Remote Sensing, doi: 10. 1109/ TGRS. 2018. 2833156, 2018.

[9] Lei Liang, Xinwu Li, Laurent Ferro-Famil, Huadong Guo, Lu Zhang and Wenjin Wu, Urban area tomography using a sparse representation based Two-Dimensional spectral analysis technique, Remote Sensing, 10(1), 109; doi:10.3390/rs10010109,2018

[10] Xinwu Li, Xizhang Gao, Yuting Chang, Dapeng Mu, Hailong Liu, Zhongchang Sun and Jinyun Guo, Water storage variations and their relation to climate factors over Central Asia and surrounding areas over 30 years, water Science & Technology: Water Supply, doi: 10.2166/ws.2017.206, 2017

[11] XING-DONG WANG, ZHAN-KAI WU, CHENG WANG, XIN-WU LI, XIN-GUANG LI, AND YU-BAO QIU, Reducing the Impact of Thin Clouds on Arctic Ocean Sea Ice Concentration From FengYun-3 MERSI Data Single Cavity, IEEE ACCESS, 10.1109/ACCESS.2017.2737326, 2017

[12] Xingdong Wang, Xinwu Li, Zhankai Wu, Near-surface snowmelt detection on the Greenland ice sheet from FengYun-3 MWRI data, Cluster Computing, https://doi.org/10.1007/s10586-018-1743-9, 2017

[13] XINWU LI, XINGDONG WANG, CHENG WANG, Antarctic snowmelt detection based on the synergy of microwave radiometer and scatterometer data, Antarctica Science, Vol.29, No.6, 2017

[14] Xingdong Wang, Xinwu Li, Cheng Wang, Xinguang Li, Antarctic ice-sheet near-surface snowmelt detection based on the synergy of SSM/I data and QuikSCAT data, Geoscience Frontiers, https://doi.org/10.1016/j.gsf.2017.09.007, 2017

[15] Wenxue Fu, Huadong Guo, Pengfei Song, Bangsen Tian, Xinwu Li, and Zhongchang Sun, Combination of PolInSAR and LiDAR Techniques for Forest Height Estimation, IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, VOL. 14, NO. 8, PP:1218-1224, 2017

[16] Xinwu Li,Wenjin Wu,Baiqing Xu,Siyang Yin,Ruifang Yang,Shu Cheng,Reflectance–Elevation Relationships and Their Seasonal Patterns over Twelve Glaciers in Western China Based on Landsat 8 Data,remote sensing,2017.02.01

[17] Huadong Guo, Jie Chen, Xinwu Li, Lu Zhang, Wenjin Wu, Huiying Liu, Kai Wang, Zhuo Li, Xinwei Gu, Qingrong Hu, Xinmin Wang, Jun Li, Chunming Han, Junjie Zhu, Guozhuang Shen, Guang Liu, Wenxue Fu, Zhongchang Sun & Xiaoyang Wen, Research on SAR data integrated processing methodology oriented on earth environment factor inversions[J], International Journal of Digital Earth, doi:10.1080/17538947.2016.1275831. 2017

[18] Guang Liu, Lei Li, Hui Gong, Qingwen Jin, Xinwu Li, Rui Song, Yun Chen, Yu Chen, Chengxin He, Yuqing Huang and Yuefeng Yao, Multisource Remote Sensing Imagery Fusion Scheme Based on Bidimensional Empirical Mode Decomposition (BEMD) and Its Application to the Extraction of Bamboo Forest[J], Remote Sens. 9(1), 19; doi:10.3390/rs9010019, 2017.

[19] Wu, Wenjin; Li, Xinwu; Guo, Huadong, Laurent Ferro-Famil, Lu Zhang, Noncircularity Parameters and Their Potential Applications in UHR MMW SAR Data Sets[J], IEEE GEOSCIENCE AND REMOTE SENSING LETTERS Vol.13, No: 10, pp: 1547-1551, OCT 2016

[20] Xinwu Li, Yan Zhang & Lei Liang, Snowmelt detection on the Greenland ice sheet using microwave scatterometer measurements[J], International Journal of Remote Sensing, VOL. 38, NO. 3, 796–807, 2016

[21] Fu Wenxue; Guo Huadong; Li Xinwu, Tian Bangsen, Sun Zhongchang, Extended Three-Stage Polarimetric SAR Interferometry Algorithm by Dual-Polarization Data[J], IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING, Vol.54, No: 5, pp: 2792-2802, MAY 2016

[22] Xinwu Li,Lu Zhang,Liyan Wang,Xiangxing Wan,Effects of BOW model with Affinity Propagation and Spatial Pyramid Matching on Polarimetric SAR Image Classification,IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing,2016.01.01

[23] Li, Xinwu; Liang, Lei; Guo, Huadong; Huang, Yue. Compressive Sensing for Multibaseline Polarimetric SAR Tomography of Forested Areas[J]. Geoscience and Remote Sensing, IEEE Transactions on, 2016, 54(1): 153-166.

[24] Liang, Lei; Li, Xinwu; Gao, Xizhang; Guo, Huadong. Multi-baseline polarimetric synthetic aperture radar tomography of forested areas using wavelet-based distribution compressive sensing[J]. Journal of Applied Remote Sensing, 2015, 9(1): 095048-095048.

[25] Wu, Wenjin; Guo, Huadong; Li, Xinwu; Laurent Ferro-Famil; Zhang, Lu. Urban land use information extraction using the ultrahigh-resolution Chinese airborne SAR imagery[J]. Geoscience and Remote Sensing, IEEE Transactions on, 2015, 53(10): 5583-5599.

[26] Li, Xinwu; Gao, Xizhang; Wang, Jingkai; Guo, Huadong. Microwave soil moisture dynamics and response to climate change in Central Asia and Xinjiang Province, China, over the last 30 years[J]. Journal of Applied Remote Sensing, 2015, 9(1): 096012-096012.

[27] Wu, Wenjin; Guo, Huadong; Li, Xinwu. Urban Area SAR Image Man-Made Target Extraction Based on the Product Model and the Time–Frequency Analysis[J]. Selected Topics in Applied Earth Observations and Remote Sensing, IEEE Journal of, 2015, 8(3): 943-952.

[28] Liang, Lei; Guo, Huadong; Li, Xinwu. Three-Dimensional Structural Parameter Inversion of Buildings by Distributed Compressive Sensing-Based Polarimetric SAR Tomography Using a Small Number of Baselines[J]. Selected Topics in Applied Earth Observations and Remote Sensing, IEEE Journal of, 2014, 7(10): 4218-4230.

[29] Zhang, Ying; Guindon, Bert; Li, Xinwu. A Robust Approach for Object-Based Detection and Radiometric Characterization of Cloud Shadow Using Haze Optimized Transformation[J]. Geoscience and Remote Sensing, IEEE Transactions on, 2014, 52(9): 5540-5547.

[30] Zhang, Ying; Guindon, Bert; Li Xinwu, Nicholas Lantz, Xiaokun Zhu & Zhongchang Sun, Synoptic mapping of high-rise buildings in urban areas based on combined shadow analysis and scale space processing[J]. International Journal of Remote Sensing, 2014, 35(10): 3616-3630.

[31] Zhang, Lu; Guo, Huadong; Li, Xinwu; Wang, Liyan. Ecosystem assessment in the Tonle Sap Lake region of Cambodia using RADARSAT-2 Wide Fine-mode SAR data[J]. International Journal of Remote Sensing, 2014, 35(8): 2875-2892.

[32] Lu, Linlin; Kuenzer, Claudia; Guo, Huadong; Li, Qingting; Long, Tengfei; Li, Xinwu. A novel land cover classification map based on a MODIS time-series in Xinjiang, China[J]. Remote Sensing, 2014, 6(4): 3387-3408.

[33] Guo, Huadong; Liu, Guang; Liao, Jingjuan; Li, Xinwu; Zhang, Lu; Shen, Guozhuang; Fu, Wenxue; Sun, Zhongchang. Study of RADARSAT-2 synthetic aperture radar data for observing sensitive factors of global environmental change[J]. Journal of Applied Remote Sensing, 2014, 8(1): 084593-084593.

[34] Guo Huadong; Fu WenXue; Li XinWu, CHEN Pei, LIU Guang, LI Zhen, WANG Cheng, DONG Qing, LEI LiPing, BAI LinYan, LIU QingJie, Research on global change scientific satellites[J]. Science China Earth Sciences, 2014, 57(2): 204-215.

[35] Zhang, Ying; Guindon, Bert; Li, Xinwu; Lantz, Lantz; Sun, Zhongchang. Target-driven extraction of built-up land changes from high-resolution imagery[J]. Journal of Applied Remote Sensing, 2014, 8(1): 084594-084594.

[36] Guo, Huadong; Yang, Huaining; Sun, Zhongchang; Li, Xinwu; Wang, Cuizhen. Synergistic use of optical and PolSAR imagery for urban impervious surface estimation[J]. Photogrammetric Engineering & Remote Sensing, 2014, 80(1): 91-102.

[37] Wang Xingdong; Xiong Zhangqiang; Li Xinwu; Liang, Lei. Antarctic ice-sheet freeze-thaw detection based on improved wavelet transform[J]. CHINESE JOURNAL OF ELECTRONICS, 2014, 31(1): 209-212.

[38] Wu Wenjin,Guo Huadong,Li Xinwu,Urban Area Man-Made Target Detection for PolSAR Data Based on a Nonzero-Mean Statistical Model,IEEE Geoscience and Remote Sensing Letters,2014.01.01,11(10):1782~1786.

专利:

1. 专利申请号:201710140706.1,名称:基于超像素的冰盖冻融探测方法,第一发明人

2. 专利申请号:201710140792.6,名称:基于循环谱估计的SAR层析建筑物高度的方法,第一发明人

3. 专利申请号:201710140753.6,名称:极地冰盖冻融探测方法,第一发明人

4. 专利申请号:201710173873.6,名称:超高分辨率合成孔径雷达图像分类方法,第一发明人

5. 专利申请号:201710272187.4,名称:一种合成孔径雷达扫描模式图像海冰分类方法,第一发明人

软件著作权:

1. 新疆及中亚生态环境遥感监测系统1.0版,2017

2. 极化SAR数据定标及评价系统1.0版,2017

国际学术组织任职:

1. 2016年“一带一路”空间认知国际会议秘书长

2. DBAR(数字一带一路)国际科学计划环境变化领域主题联合主席

3. 中国-欧盟土壤与土地专家委员会(SEPLS)委员

国内学术组织和机构任职:

1. 中国生态学会生态遥感学会会员

2. 海南热带海洋学院兼职教授

3. 2011年第一届合成孔径雷达高级学术研讨会秘书长

4. 2014年第二届合成孔径雷达高级学术研讨会秘书长

5. 2018年第四届合成孔径雷达高级学术研讨会组委会主席

国际、国内主要遥感类期刊审稿人:

IEEE Transactions on Geoscience and Remote Sensing,IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing,IEEE Geoscience and Remote Sensing Letters,International Journal of Remote Sensing, Journal of App lied Remote Sensing, Remote Sensing Letters,Remote Sensing, 中国科学,红外与毫米波学报、光谱学与光谱分析、遥感学报、测绘学报、雷达学报、武汉测绘大学学报等

获奖及荣誉:

1. 北京市科学技术奖(基础类)一等奖一项,2004

2. 联合国“全球脉动奖”:Big Earth Observation Data for Climate Change Research,2014,排名第七

3. 入选海南省“南海名家”培育计划,2019