Fengxiang Guo
Fengxiang Guo
Ph.D. student
Department of Urban and Environmental Sociology
Helmholtz Centre
for Environmental Research − UFZ
Permoserstr. 15
04318 Leipzig, Germany
fengxiang.guo@ufz.de
Research interests
- Land surface temperature downscaling
- Urban landscape with focus on buildings pattern, and heat islands
- Analyzing 3D landscape and multi-scale relationship between urban landscape and ecological processes
Curriculum Vitae
since 04/2021
Ph.D. student in the Department of Urban and Environmental Sociology at the UFZ, and the Faculty of Physics and Earth Sciences, University of Leipzig (since 02/2020)
Working title: Novel 3D characteristics of urban building morphology as indicator for urban heat environment
Supervisor:
Prof. Dr. Uwe Schlink
, funded by China Scholarship Council
09/2019− 12/2019
Research assistant in the Department of Urban and Environmental Sociology, Helmholtz Centre for Environmental Research - UFZ
09/2015 - 06/2018
MA.Sc in Geodesy and Surveying Engineering,
College of Geo-exploration Science and Technology, Jilin University
Completed Projects
08/2017 - 09/2018
Remote sensing image interpretation and land use database construction development in Baicheng City, China
05/2016 - 09/2016
The exploring of hot dry rock using GNSS, gravity and magnetic method in Qinhai-Tibet Plateau, China
10/2014 - 02/2016
Measuring three dimensional landscape pattern using DEM and LiDAR data
Index:
You could use our publication index for further requests.
2024 (1)
- Guo, F., Hertel, D., Schlink, U., Hu, D., Qian, J., Wu, W. (2024):
Remote sensing-based attribution of urban islands to the drivers of heat
IEEE Trans. Geosci. Remote Sensing 10.1109/TGRS.2024.3378287
2023 (3)
- Guo, F., Schlink, U., Wu, W., Hu, D., Sun, J. (2023):
Scale-dependent and season-dependent impacts of 2D/3D building morphology on land surface temperature
Sust. Cities Soc. 97 , art. 104788 10.1016/j.scs.2023.104788 - Guo, F., Schlink, U., Wu, W., Hu, D., Sun, J. (2023):
A new framework quantifying the effect of morphological features on urban temperatures
Sust. Cities Soc. 99 , art. 104923 10.1016/j.scs.2023.104923 - Wu, B.-W., Ma, J., Banzhaf, E., Meadows, M.E., Yu, Z.-W., Guo, F., Sengupta, D., Cai, X.-X., Zhao, B. (2023):
A first Chinese building height estimate at 10 m resolution (CNBH-10 m) using multi-source earth observations and machine learning
Remote Sens. Environ. 291 , art. 113578 10.1016/j.rse.2023.113578
2022 (4)
- Guo, F., Hu, D., Schlink, U. (2022):
A new nonlinear method for downscaling land surface temperature by integrating guided and Gaussian filtering
Remote Sens. Environ. 271 , art. 112915 10.1016/j.rse.2022.112915 - Guo, F., Schlink, U., Wu, W., Mohamdeen, A. (2022):
Differences in urban morphology between 77 cities in China and Europe
Remote Sens. 14 (21), art. 5462 10.3390/rs14215462 - Hu, D., Meng, Q., Schlink, U., Hertel, D., Liu, W., Zhao, M., Guo, F. (2022):
How do urban morphological blocks shape spatial patterns of land surface temperature over different seasons? A multifactorial driving analysis of Beijing, China
Int. J. Appl. Earth Obs. Geoinf. 106 , art. 102648 10.1016/j.jag.2021.102648 - Wu, Q., Li, Z., Yang, C., Li, H., Gong, L., Guo, F. (2022):
On the scale effect of relationship identification between land surface temperature and 3D landscape pattern: The application of random forest
Remote Sens. 14 (2), art. 279 10.3390/rs14020279
2021 (1)
- Guo, F., Wu, Q., Schlink, U. (2021):
3D building configuration as the driver of diurnal and nocturnal land surface temperatures: Application in Beijing's old city
Build. Environ. 206 , art. 108354 10.1016/j.buildenv.2021.108354
2019 (1)
- Wu, Q., Tan, J., Guo, F., Li, H., Chen, S. (2019):
Multi-scale relationship between land surface temperature and landscape pattern based on wavelet coherence: The case of metropolitan Beijing, China
Remote Sens. 11 (24), art. 3021 10.3390/rs11243021