百盛彩票

發布者:系統管理員發布時間:2012-09-07浏覽次數:1056

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
实验室招收本科生、硕士生、博士生、博士後或助理研究员(专职科研岗),热忱欢迎对熱紅外遙感與城市熱環境遙感研究领域感兴趣的同学、老师加盟团队或者前来合作(zhanwenfeng@nju.edu.cn),共同爲熱紅外遙感理論及應用事業添磚加瓦!
 
個人信息
地址:江蘇省南京市棲霞區仙林大道163號南大仙林校區昆山樓
研究方向:熱紅外遙感理論與應用、城市熱環境遙感
主頁2http://gis.nju.edu.cn/rs.asp?ID=80
 
教育與工作經曆
2016.06-至今             副教授/博導,國際地球系統科學研究所,南京大學
2012.08-2016.06       副教授/碩導,國際地球系統科學研究所,南京大學
2010.09-2011.07       博士生聯合培養(CSC資助),加拿大西安大略大學
2007.09-2012.07      理學博士(地理學-地圖學與地理信息系統),北京師範大學
2003.09-2007.06     工學學士(遙感科學與技術-偏向于攝影測量與電子工程),武漢大學
 
研究經曆
2008.07-至今            熱紅外遙感與城市熱環境遙感
2007.07-2008.06     遙感與GIS軟件開發[Java + Oracle]
2006.11-2007.06      InSAR地理編碼技術
2006.03-2006.10     遙感影像融合技術
 
主持項目
2017.01-2020.12         國家自然科學基金面上項目(顧及地表熱力屬性的城市群局地氣候遙感分區及時空格局
2014.04-2017.03       南京大學登峰人才支持計劃(B類,地理學)
2014.01-2016.12         國家自然科學基金青年基金(熱紅外遙感支持下淺層土壤溫度的四時間尺度模型與高分辨率重建)
2013.12-2016.12          國家高技術研究發展計劃(863計劃)專題(全球陸地生態系統GPPET産品生成技術研究)
2013.07-2016.06       江蘇省自然科學基金青年基金(遙感支持下城市地下熱環境的時空格局與剖面耦合模擬)
2013.01-2014.12         地表過程與資源生態國家重點實驗室開放課題(耦合地表溫度時空變異模型的遙感組分溫度分離方案)
2012.07-2014.06       遙感科學國家重點實驗室開放基金(顧及時間動態模型的遙感地表溫度分解同化範式)
 
論文發表
  • 發表論文40余篇,其中SCI論文30余篇;

  • 發表第一/通訊作者SCI論文15篇,全部为遙感與地学類主流的1/2區期刊(中科院分區),其中包括6Remote Sensing of Environment (1), 1Environmental Science & Technology (1), 1Journal of Hydrology (1), 4IEEE Transactions on Geoscience and Remote Sensing (2), 1Journal of Geophysical Research (2), 1Building and Environment (2), 1International Journal of Applied Earth Observation and Geoinformation (2).

 
教授課程
  • 熱紅外遙感(研究生課程)

  •  數據挖掘(本科生課程)

 
主要獲獎
2015         科技部國家遙感中心首届遥感青年科技人才创新资助計劃(全国共30人)
2014        南京大学登峰計劃-B
2013         北京市优秀博士学位論文(北师大地学相关专业首次入选)
2012         北京師範大學周廷儒獎學金(北師大6個地學相關的學院/研究院,博士組第一名)
2007        湖北省优秀本科毕业論文一等奖
2005        武漢大學王之卓獎學金(年級第一)
 
Short Bio and Complete English CV
Born in Oct. 1986, Dr. Wenfeng Zhan [Standard Chinese: 占文鳳/詹文鳳; Gan Chinese, 赣语-宜浏片: Dēn Wèn F?ng] currently holds an associate professor position in the International Institute for Earth System Science (ESSI), Nanjing University (NJU).
Initially educated as an engineer on photogrammetry and remote sensing (with a special focus on electronic engineering, Class number: 03011) in Wuhan University (WHU), he then continued to accomplish his Ph.D. pursuing science in Geography in Beijing Normal University (BNU) and later in University of Western Ontario (UWO) as a visiting student. He has worked extensively on the theory and application of thermal remote sensing, with special focus on the investigation of urban thermal anisotropy, disaggregation of land surface temperature (DLST), temporal interpolation (or extrapolation) of satellite-derived LSTs, and monitoring of urban heat island, which are supported by Chinese funding agencies such as National Natural Science Foundation of China and Natural Science Foundation of Jiangsu Province. Dr. Zhan is the author or coauthor of more than 30 peer-reviewed journal articles. Rather than working on traditional fields within thermal remote sensing, he tends to explore the philosophical basis of the spatial, temporal, and angular behaviors of satellite-derived LSTs in a critical and generalized way based on the Euclidean paradigm.
He is the recipient of a number of awards, including the Zhizhuo Wang Innovative Scholarship by Wuhan University (2005), the excellent undergraduate thesis by Hubei Province (2007), and Liyun Scholarship (2011) and Tingru Zhou Academic Scholarship (2012) by Beijing Normal University. Recently he was awarded as one of the 59 excellent PhD dissertations by the Beijing Municipal Education Commission, an honor with which less than one percent of the new PhDs are rewarded.
 
Personal Information
Name                             Wenfeng Zhan [Chinese: 占文鳳/詹文鳳]
Address                        Room B-412, Kunshan Building, Nanjing University at Xianlin Campus, No. 163, Xianlin Ave., Qixia District, Nanjing, Jiansu Province, China, 210046
Research Field         Thermal remote sensing; Remote sensing application
Email                              zhanwenfeng@nju.edu.cn; zhanwenfeng@foxmail.com
Group Page                /zhanwenfeng/index.html
Homepage 1               http://nanjing.academia.edu/WenfengZhan
Homepage 2              http://gis.nju.edu.cn/rs.asp?ID=80
 
Employment and Education Background
2012.08-present       Associate Professor, International Institute for Earth System Science (ESSI), Nanjing University (NJU)
2010.09-2011.07       Joint Ph. D. Student, University of Western Ontario (UWO)
2007.09-2012.07      Ph. D., Beijing Normal University (BNU)
2003.09-2007.06     B.E. (H.), Wuhan University (WHU)
 
Research Experiences
2008.07-present     Urban & thermal remote sensing
2007.07-2008.06     Software developer [Java + Oracle]
2006.11-2007.06      Geolocation in InSAR
2006.03-2006.10     Multi-source image fusion based on the à-trous wavelet
 
Publications
  • Main Publications (*the only corresponding author; ?my graduate student)

I am the leading author of the following publications. They can be generally divided into three closely-related narrow fields.
(1) On interpolation (or extrapolation) of temporally discrete surface or subsurface temperatures
[1]     2016        Lu, Y., Zhan, W.*, Hu, C. Detecting and quantifying oil slick thickness by thermal remote sensing: A ground-based experiment. Remote Sensing of Environment, 2016, 181, 207–217.
[2]     2014        Huang, F.?, Zhan, W.*, Ju, W., Wang, Z. Improved reconstruction of soil thermal field using two-depth measurements of soil temperature. Journal of Hydrology, 2014, 519, 711–719.
[3]    2014        Huang, F.?, Zhan, W.*, Duan, S.-B., Ju, W., Quan, J. A generic framework for modeling diurnal land surface temperatures with remotely sensed thermal observations under clear sky. Remote Sensing of Environment, 2014, 150, 140–151.
[4]    2014        Zhan, W., Zhou, J., Ju, W., Li, M., Sandholt, I., Voogt, J., & Yu, C. Remotely sensed soil temperatures beneath snow-free skin-surface using thermal observations from tandem polar-orbiting satellites: An analytical three-time-scale model. Remote Sensing of Environment, 2014, 143, 1-14.
[5]    2012         Zhan, W., Chen, Y., Voogt, J., Zhou, J., Wang, J., Liu, W., Ma, W. Interpolating diurnal surface temperatures of an urban facet using sporadic thermal observations. Building and Environment, 2012, 57, 239-252.
(2) On disaggregation of remotely sensed land surface temperature (DLST)
[6]    2016        Gao, L.?, Zhan, W.*, Huang, F., Quan, J., Lu, X., Wang, F., Ju, W., Zhou, J. Localization or globalization? Determination of the optimal regression window for disaggregation of land surface temperature. IEEE Transactions on Geoscience and Remote Sensing, 2016, in press.
[7]    2016        Zhan, W., Huang, F., Quan, J., Zhu, X., Gao, L., Zhou, J., Ju, W. Disaggregation of remotely sensed land surface temperature (III): A new dynamic methodology. Journal of Geophysical Research – Atmospheres, 2016, doi: 10.1002/2016JD024891.
[8]    2014        Chen, Y., Zhan, W.*, Quan, J., Zhou, J., Zhu, X., Sun, H. Disaggregation of remotely sensed land surface temperature: (II) A generalized paradigm. IEEE Transactions on Geoscience and Remote Sensing, 2014, 52(9), 5952-5965.
[9]    2013         Zhan, W., Chen, Y., Zhou, J., Wang, J., Liu, W., Voogt, J., Zhu, X., Quan, J., Li, J. Disaggregation of remotely sensed land surface temperature: (I) Literature survey, taxonomy, issues, and caveats. Remote Sensing of Environment, 2013, 131, 119-139.
[10]2012         Zhan, W., Chen, Y., Wang, J. F., Zhou, J., Quan, J., Liu, W., Li, J. Downscaling land surface temperatures through multi-spectral and multi-resolution bands. International Journal of Applied Earth Observation and Geo-information, 2012, 18, 23-36.
[11] 2011        Zhan, W., Chen, Y., Zhou, J., Li, J. An algorithm for separating soil and vegetation temperatures with sensors featuring a single thermal channel. IEEE Transactions on Geoscience and Remote Sensing, 2011, 49(5), 1796-1809.
[12] 2011        Zhan, W., Chen, Y., Zhou, J., Li, J., Liu, W. Sharpening thermal imageries: a generalized theoretical framework from an assimilation perspective. IEEE Transactions on Geoscience and Remote Sensing, 2011, 49(2), 773-789.
(3) On urban heat island and urban thermal anisotropy
[13]2016        Huang, F.?, Zhan, W.*, Voogt, J. A., Hu, L., Wang, Z., Quan, J., Ju, W., & Guo, Z. Temporal upscaling of surface urban heat island by incorporating an annual temperature cycle model: A tale of two cities. Remote Sensing of Environment, 2016, 186, 1?12, doi: 10.1016/j.rse.2016.08.009.
[14]2014        Zhan, W., Ju, W., Hai, S., Ferguson, G., Quan, J., Tang, C., Guo, Z., Kong, F. Satellite-derived subsurface urban heat island. Environmental Science & Technology, 2014, 48, 12134?12140.
[15]2012         Zhan, W., Chen, Y., Voogt, J. A., Zhou, J., Wang, J., Ma, W., Liu, W. Assessment of thermal anisotropy on remote estimation of urban thermal inertia. Remote Sensing of Environment, 2012, 123, 12–24.
 
  •  Coauthored International Publications

[1]     2016        Liu, Y., Sun, C., Sun, J., Li, H., Zhan, W., Yang, Y., Zhang, S. Satellite data lift the veil on offshore platforms in the South China Sea. Scientific Report, 2016, in press.
[2]     2016        Chen, Y., Quan, J., Zhan, W., & Guo, Z. Enhanced statistical estimation of air temperature incorporating nighttime light data. Remote Sensing, 2016, 8(8), 656; doi:10.3390/rs8080656.
[3]    2016        Tu, L., Qin, Z., Li, W., Geng, J., Yang, L., Zhao, S., Zhan, W., Wang, F. The surface urban heat island effect and its relationship with urban expansion in Nanjing, China. Journal of Applied Remote Sensing, 10(2), 026037-026037.
[4]    2016        Quan, J., Zhan, W., Chen, Y., Wang, M., Wang, J. Time series decomposition of remotely sensed land surface temperature and investigation of trends and seasonal variations in surface urban heat islands. Journal of Geophysical Research, 2016, 21, doi:10.1002/2015JD024354.
[5]    2016        Xie, X., Tian, S., Du, P., Zhan, W., Samat, A., Chen, J. Quantitative estimation of carbonate rock fraction in karst regions using synthetic mixed spectra in 2.0-2.5 ?m. Remote Sensing, 2016, 8(1), 68. doi:10.3390/rs8010068.
[6]    2016        Liu, Y., Sun, C., Yang, Y., Zhou, M., Zhan, W., Cheng, W. Automatic extraction of offshore platforms using time-series Landsat-8 Operational Land Imager data. Remote Sensing of Environment, 2016, 175, 73–91.
[7]    2016        Kong, F. H., Yan, W. J., Zheng, G., Yin, H. W., Cavan, G., Zhan, W. F., Zhang, N., Cheng, L. Retrieval of three-dimensional tree canopy and shade using terrestrial laser scanning (TLS) data to analyze the cooling effect of vegetation. Agricultural and Forest Meteorology, 2016, 217, 22–34.
[8]    2015         Sun, H., Chen, Y., Zhan, W. Comparing surface-and canopy-layer urban heat islands over Beijing using MODIS data. International Journal of Remote Sensing, 2015, 36(21), 5448-5465.
[9]    2015         Yang, Y. H., Liu, Y., Zhou, M., Zhang, S., Zhan, W., Sun, C., Duan, Y. Landsat 8 OLI image based terrestrial water extraction from heterogeneous backgrounds using a reflectance homogenization approach. Remote Sensing of Environment, 2015, 171, 14-32. doi: 10.1016/j.rse.2015.10.005.
[10]2015         Liu, Y. X., Zhou, M., Zhao, S., Zhan, W., Yang, K., Li, M. Automated extraction of tidal creeks from airborne laser altimetry data. Journal of Hydrology, 2015, 527, 1006-1020.
[11] 2015         Sun, H., Chen, Y., Zhan, W., Wang, M., Ma, W. A kernel model for urban surface thermal emissivity anisotropy and its uncertainties. Journal of Infrared and Millimeter Waves, 2015, 34(1), 66-73.
[12] 2015         Li, W. M., Chen, E., Li, Z., Ke, Y., Zhan, W. Forest aboveground biomass estimation using polarization coherence tomography and PolSAR segmentation. International Journal of Remote Sensing, 2015, 36(2), 530–550.
[13]2014        Quan, J., Chen, Y., Zhan, W., Wang, J., Voogt, J. A., Li, J. A hybrid method combining neighborhood information from satellite data with modeled diurnal temperature cycles over consecutive days. Remote Sensing of Environment, 2014, 155, 257–274.
[14]2014        Zeng, C., Wang, J., Zhan, W., Shi, P., Gambles, A. An elevation difference model for building height extraction from stereo-image-derived DSM. International Journal of Remote Sensing, 2014, 35(22), 7614–7630.
[15]2014        Quan, J., Chen, Y., Zhan, W., Wang, J., Voogt, J. A., Wang, M. Multi-temporal trajectory of the urban heat island centroid in Beijing, China based on a Gaussian volume model. Remote Sensing of Environment, 2014, 149, 33–46.
[16]2014        Zhou, J., Zhang, X., Zhan, W., Zhang, H. Land surface temperature retrieval from MODIS data by integrating regression models and the genetic algorithm in an arid region. Remote Sensing, 2014, 6(6), 5344-5367.
[17]2014        Sun, H., Chen, Y., Gong, A., Zhao, X., Zhan, W., Wang, M. Estimating mean air temperature using MODIS day and night land surface temperatures. Theoretical and Applied Climatology, 2014, 118(1-2), 81-92.
[18]2014        Chen, X., Li, W., Chen, J., Zhan, W., & Rao, Y. A simple error estimation method for linear-regression-based thermal sharpening techniques with the consideration of scale difference. Geo-spatial Information Science, 2014, 17(1), 54-59.
[19]2013         Zhou, J., Chen, Y., Zhang, X., Zhan, W. Modelling the diurnal variations of urban heat islands with multi-source satellite data. International Journal of Remote Sensing, 2013, 34(21), 7568-7588.
[20]2013         Chen, Z., Qin, Q., Lin, L., Liu, Q., Zhan, W. DEM Densification using perspective shape from shading through multispectral imagery. IEEE Geoscience and Remote Sensing Letters, 2013, 99, 145-149.
[21] 2012         Zhou, J., Li, J., Zhang, L., Hu, D., Zhan, W. F. Inter-comparison of methods for estimating land surface temperature from Landsat-5 TM image in an arid region with low water vapor in the atmosphere. International Journal of Remote Sensing, 2012, 33(8), 2582-2602.
[22]2011          Zhou, J., Chen, Y. H., Wang, J. F., Zhan, W. F. Maximum nighttime urban heat island (UHI) intensity simulation by integrating remotely sensed data and meteorological observations. IEEE Journal of Selected Topics in Earth Observations and Remote Sensing, 2011, 4(1), 138-146.
[23]2011          Zhou, J., Li, J., Zhao, X., Zhan, W. F., Guo, J. X. A modified single-channel algorithm for land surface temperature retrieval from HJ-1B satellite data. Journal of Infrared and Millimeter Waves, 2011, 30(1), 61-67.
[24]2010        Zhou, J., Zhan, W. F., Hu, D. Y., Zhao, X. Improvements of the mono-window algorithm for retrieving land surface temperature from HJ-1B satellite data. Chinese Geographical Science, 2010, 20(2), 123-131.
 
  • Selected Chinese publications [中文期刊論文]

[1]     2013         Quan, J., Zhan, W., Chen, Y., Liu, W. Downscaling remotely sensed land surface temperatures: A comparison of typical methods. Journal of Remote Sensing, 2013, 17(2), 374-387. [全金玲, 占文鳳, 陳雲浩, 劉聞雨. (2013). 基于遙感的地表溫度降尺度方法比較研究性能對比及適應性評價. 遙感學報, 17(2), 376-389.]
[2]     2013         Ma, W., Chen, Y., Zhan, W., Zhou, J. Thermal anisotropy model for simulated three dimensional urban targets. Journal of Remote Sensing, 2013, 17(1), 62-76. [馬偉, 陳雲浩, 占文鳳, 周紀. (2013). 城市模擬目標的三維熱輻射方向性模型. 遙感學報, 17(1), 69-76.]
[3]    2011          Zhan, W. F., Chen, Y. H., Zhou, J., Li, J. Spatial simulation of urban heat island intensity based on the support vector machine technique: A case study in Beijing. Acta Geodaetica et Cartographica Sinica, 2011, 40(1), 96-103. [占文鳳, 陳雲浩, 周紀, 李京. 基于支持向量機的北京城市熱島模擬熱島強度空間格局曲面模擬及其應用. 測繪學報, 2011, 40(1), 96-103.]
[4]    2010        Zhan, W. F., Chen, Y. H., Ma, W., Zhou, J., Li, J. FOV effect analysis in directional brightness temperature observations for urban targets. Journal of Remote Sensing, 2010, 14(2), 379-386. [占文鳳, 陳雲浩, 馬偉, 周紀. 城市目標方向亮溫觀測的視場效應分析. 遙感學報, 2010, 14(2), 379-386.]
 
Journal Reviewers
  •  International Journals

Advances in Space Research, Environmental Science & Technology, Frontiers of Earth Science, Geoinformatics and Geostatistics: An overview, IEEE Geoscience and Remote Sensing Letters, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, IEEE Transactions on Geoscience and Remote Sensing, International Journal of Applied Earth Observation and Geoinformation, International Journal of Digital Earth, International Journal of Sustainable Society, Journal of Applied Remote Sensing, Journal of Geophysical Research, Journal of Hydrology, Meteorology and Atmospheric Physics, Photogrammetric Engineering & Remote Sensing, Remote Sensing, Remote Sensing of Environment, Sustainable Cities and Society
  •  Chinese Journals

Journal of Nanjing University [南京大學學報], Journal of Natural Disasters [自然災害學報], Journal of Remote Sensing [遙感學報], Remote Sensing Information [遙感信息], Scientia Meteorologica Sinica [氣象科學], Spectroscopy and Spectral Analysis [光譜學與光譜分析]
 
Recent collaborators
Dr. James Voogt, at University of Western Ontario
http://geography.uwo.ca/people/faculty/voogt_james.html
Dr. Ji Zhou, at University of Electronic Science and Technology of China
http://staff.uestc.edu.cn/zhouji/?page_id=2
Dr. Zhihua Wang, at Arizona State University
https://sustainability.asu.edu/person/zhihua-wang/
Dr. Inge Sandholt, at Technical University of Demark
http://orbit.dtu.dk/en/persons/inge-sandholt(f89fb940-992e-413f-b031-e27f7ebfbd6a).html
Dr. Jinling Quan, at Institute of Geographic Sciences and Natural Resources Research
http://www.lreis.ac.cn/sc/news/final.aspx?id=1286&v=1
Dr. Xiaolin Zhu, at University of California, Davis
http://xiaolinzhu.weebly.com/personal-info.html
Dr. Leiqiu Hu, at National Center for Atmospheric Research
http://staff.ucar.edu/users/leiqiu
Dr. Paolo Gamba, at University of Pavia
http://tlc.unipv.it/~gamba/
Dr. Grant Ferguson, at University of Saskatchewan
http://engineering.usask.ca/faculty-staff/cge/grant-ferguson/index.php
 
Honors and Awards
  •  As a faculty member

2015         Young Talent for Remote Sensing Science and Technology, National Center for Remote Sensing [首届遥感青年科技人才创新资助計劃,全国共30]
2014        Outstanding faculty member, School of geographic and oceanographic sciences, Nanjing University [南京大學地海學院/國際地球所先進工作者]
2014        DengFeng Program – Level B, Nanjing University [南京大学登峰計劃-B]
2013         Excellent Ph.D thesis, Beijing [北京市优秀博士学位論文, 北師大僅2名,地學相關專業首次入選]
  •  As a graduate or an undergraduate

2012         Tingru Zhou Academic Scholarship, Beijing Normal University, Rank 1st among more than 100 new PhDs [周廷儒獎學金,北師大6個地學相關的學院(研究院),博士組第1]
2010        Liyun Scholarship, Beijing Normal University [勵耘獎學金]
2007        GPA Rank: 1/166, School of Remote Sensing and Information Engineering, Wuhan University [武漢大學遙感學院07屆本]
2007        Excellent undergraduate thesis, Hubei Province [湖北省优秀本科毕业論文一等奖, on InSAR, Guided by Prof. Jie Yang, Bin Pan, and Shenghui Fang]
2005        Wang Zhi-zhuo Innovative Scholarship, Wuhan University [王之卓獎學金,1/166]
 
Supervision of Students
Fan HUANG (M.S., 黃帆, 2012- ), in progress
Yingbo FANG (M.S., 方迎波, 2014- ), in progress
Lun GAO (M.S., 高倫, 2014- ), in progress
Zhaoxu ZOU (M.S., 鄒照旭, 2015- ), in progress
Lu JIANG (M.S., 姜璐, 2015- ), in progress
Yanan Cui (M.S., 崔亞南, 2016- ), in progress
 
Courses Taught
[1] Thermal Remote Sensing of Land Surfaces [In Chinese: 熱紅外遙感], for graduates [Fall semester, 2014, 2015]
[2] Data Mining [In Chinese: 數據挖掘], for undergraduates [Spring semester, 2014, 2015, 2016]