洪发路

2021.01–2025.08    博士    康涅狄格大学（University of Connecticut），美国

2017.09–2020.06    硕士    南京大学 地理与海洋科学学院

2013.09–2017.07    本科    南京大学 地理与海洋科学学院

洪发路，博士、华东师范大学空间人工智能学院助理教授。主要研究涵盖土地覆盖与土地利用制图、遥感变化监测、森林监测、地表温度时序变化建模、城市化进程、城市热岛效应、土地利用模拟等方面。迄今共发表SCI一区论文10+篇，其中以第一作者身份在Remote Sensing of Environment，ISPRS Journal of Photogrammetry and Remote Sensing及Earth System Science Data等遥感顶级期刊发表论文4篇，共同作者论文发表亦在Nature Geoscience等期刊上。长期担任Remote Sensing of Environment等多个遥感领域国际顶尖期刊审稿人，累计审稿50余次。荣获康涅狄格大学Jorgensen奖学金以及国家奖学金等荣誉。

个人主页：https://faluhong.github.io/

遥感主流期刊审稿人:

[1] Remote Sensing of Environment 

[2] ISPRS Journal of Photogrammetry and Remote Sensing 

[3] Sustainable Cities and Society 

[4] Building and Environment 

[5] International Journal of Applied Earth Observation and Geoinformation 

[6] Journal of Selected Topics in Applied Earth Observations and Remote Sensing 

[7] Science of Remote Sensing 

 遥感

 土地覆盖与土地利用制图

 变化监测

 森林生态系统

 城市化

 城市热岛效应

 地表温度

 土地变化模拟

[1] Collaborative Research: BoCP-Implementation: Estimating the extinction risk of biodiversity with a time-based dynamic system, PI: S.Blair Hedges, PI: Zhe Zhu, NSF, Total $1,952,698, UConn Proportion $961,763.参与

[2] 国家重点研发计划项目（基于多源卫星遥感的高分辨率全球碳同化系统研究）子课题。参与

[3] 国家自然科学基金面上项目（顾及地表热力属性的城市群局地气候分区及时空格局）。参与

完整发表列表见：https://faluhong.github.io/

第一和通讯*作者论文：

[1]  Hong, F.*, Hedges, S. B., Yang, Z., Suh, J. W., Qiu, S., Timyan, J., & Zhu, Z. (2025). Decoding primary forest changes in Haiti and the Dominican Republic using Landsat time series. Remote Sensing of Environment, 318, 114590.

[2]  Hong, F., Zhan, W., Göttsche, F. M., Liu, Z., Dong, P., Fu, H., Hunag, F., Zhang, X. (2022). A global dataset of spatiotemporally seamless daily mean land surface temperatures: generation, validation, and analysis. Earth System Science Data, 14(7), 3091-3113.

[3]    Hong, F., Zhan, W., Göttsche, F.-M., Lai, J., Liu, Z., Hu, L., Fu, P., Huang, F., Li, J., Li, H., & Wu, H. (2021). A simple yet robust framework to estimate accurate daily mean land surface temperature from thermal observations of tandem polar orbiters. Remote Sensing of Environment, 264, 112612.

[4]  Hong, F., Zhan, W., Göttsche, F.M., Liu, Z., Zhou, J., Huang, F., Lai, J., Li, M. (2018). Comprehensive assessment of four-parameter diurnal land surface temperature cycle models under clear-sky. ISPRS Journal of Photogrammetry and Remote Sensing, 142, 190-204.

共同作者论文：

[5]   Qiu, S., Zhu, Z., Yang, X., Woodcock, C. E., Fahey, R. T., Stehman, S., Zhang, Y., Cullerton, M., Grinstead, A., Hong, F., Song, K., Suh, J. W., Li, T., Ren, W., & Nemani, R. R. (2025). A shift from human-directed to undirected wild land disturbances in the USA. Nature Geoscience, 18(10), 989-996.

[6]   Liu, Z., Zhan, W., Lai, J., Bechtel, B., Lee, X., Hong, F., Li, L., Huang, F., Li, J. (2022). Taxonomy of seasonal and diurnal clear-sky climatology of surface urban heat island dynamics across global cities. ISPRS Journal of Photogrammetry and Remote Sensing, 187, 14-33.

[7]  Li, J., Zhan, W., Hong, F., Lai, J., Dong, P., Liu, Z., Wang, C., Huang, F., Li, L., Wang, C., Fu, Y., (2021). Similarities and disparities in urban local heat islands responsive to regular-, stable-, and counter-urbanization: A case study of Guangzhou, China. Building and Environment, 199, 107935.

[8]   Jiang, L., Zhan, W., Hu, L., Huang, F., Hong, F., Liu, Z., Lai, J., Wang, C. (2021). Assessment of different kernel-driven models for daytime urban thermal radiation directionality simulation. Remote Sensing of Environment, 263, 112562.

[9]    Lai, J., Zhan, W., Quan, J., Liu, Z., Li, L., Huang, F., Hong, F., Liao, W. (2021). Reconciling debates on the controls on surface urban heat island intensity: Effects of scale and sampling. Geophysical Research Letters, 48(19), 2021GL094485.

[10] Du, H., Zhan, W., Liu, Z., Li, J., Li, L., Lai, J., Miao, S., Huang, F., Wang, C., Wang, C., Fu, H., Jiang L., Hong, F., Jiang, S. (2021). Simultaneous investigation of surface and canopy urban heat islands over global cities. ISPRS Journal of Photogrammetry and Remote Sensing, 181, 67-83.

[11] Jiang, S., Zhan, W., Yang, J., Liu, Z., Huang, F., Lai, J., Li, J., Hong, F., Huang, Y., Chen, J., Lee, X., (2020). Urban heat island studies based on local climate zones: A systematic overview (局地气候分区框架下城市热岛时空分异特征研究进展). Acta Geographica Sinica (地理学报), 75(9), 1860-1878.

[12] Wang, C., Zhan, W., Liu, Z., Li, J., Li, L., Fu, P., Huang, F., Lai, J., Chen, J., Hong, F., Jiang, S. (2020). Satellite-based mapping of the Universal Thermal Climate Index over the Yangtze River Delta urban agglomeration. Journal of Cleaner Production, 277, 123830.

[13] Liu, Z., Zhan, W., Lai, J., Hong, F., Quan, J., Bechtel, B., Huang, F., Zou, Z. (2019). Balancing prediction accuracy and generalization ability: A hybrid framework for modelling the annual dynamics of satellite-derived land surface temperatures. ISPRS Journal of Photogrammetry and Remote Sensing, 151, 189-206.

[14] Lai, J., Zhan, W., Huang, F., Voogt, J., Bechtel, B., Allen, M., Peng, S., Hong, F., Liu, Y., Du, P. (2018). Identification of typical diurnal patterns for clear-sky climatology of surface urban heat islands. Remote Sensing of Environment, 217, 203-220.

[15] Zou, Z., Zhan, W., Liu, Z., Bechtel, B., Gao, L., Hong, F., Huang, F., Lai, J. (2018). Enhanced modeling of annual temperature cycles with temporally discrete remotely sensed thermal observations. Remote Sensing, 10(4), 650. 

[1] 2020-2025      康涅狄格大学Jorgensen奖学金

[2] 2019         南京大学国家奖学金