1.数字遗产
2.地学遥感

2006.09～2011.06，中国科学院地质与地球物理研究所，构造地质学，理学博士学位。
2002.09～2006.07，兰州大学，地质学，理学学士学位。

2019.06至今，中国科学院空天信息创新研究院五室，副研究员。
2016.08～2016.12，澳大利亚CSIRO，矿物资源，访问学者。
2014.02~2019.05，中国科学院遥感与数字地球研究所喀什研究中心，副研究员。
2013.02～2014.01，中国科学院遥感与数字地球研究所喀什研究中心，助理研究员。
2011.06～2013.01，中国科学院对地观测中心与数字地球科学中心喀什分中心，助理研究员。

1.2020-2022，九寨沟管理局《九寨沟世界自然遗产地“天-空-地”一体化监测》，课题负责人
2.2019-2020,北京市科学技术委员会北京市科技计划《中国大运河（北京段）文化遗产遥感监测系统平台研发》，子课题负责人
3.2019，中国自然资源航空物探遥感中心《北方典型沙化区物源遥感监测及成因机制分析》，课题负责人
4.2019-2021,衡阳师范学院创新平台开放基金《无人机遥感在文化遗产保护利用中的应用研究》，课题负责人
5.2018-2023,中国科学院先导专项地球大数据科学工程《一带一路文化-自然遗产保护与发展》课题子任务《长城城墙完整性评价与影响因素研究》，子课题负责人
6.2018-2021,国家重点研发计划项目《CO2驱油技术及地质封存安全监测》子课题《CO2 地质封存环境变化遥感监测》，子课题负责人
7.2017-2020,国家自然科学基金中国以色列国际合作与交流项目《上新世-更新世死海断裂和阿尔金断裂地区地貌演化过程、走滑速率及其动力学意义》子课题《多光谱遥感数据应用于构造位错幅度恢复》，子课题负责人
8.2018-2019，企业委托项目《郑州历史文化名城资源信息平台研究》，课题负责人
9.2018-2019，企业委托项目《隧道顶部地貌三维数据采集及建模》，课题负责人
10.2014-2017,中国科学院-澳大利亚联邦科学与工业研究组织合作研究计划项目《基于空间对地观测技术的矿物制图与荒漠化过程监测》，子课题负责人
11.2014-2016，国家自然科学基金青年科学基金项目《巴什布拉克铀矿区流体成矿地表异常的遥感探测》，课题负责人
12.2012-2016，中国科学院“青年创新促进会”成员，课题负责人
13.2012-2016，中国科学院“西部之光”人才培养计划一般项目《烃类蚀变信息遥感提取及在塔里木盆地北缘砂岩型铀矿区的应用》，课题负责人
14.2012-2016,中国科学院战略性科技先导专项(XDB03020202)《东昆仑构造变形历史与沉积响应》，子课题负责人
15.2012-2015,国家科技支撑863项目《中亚地区环境变化与自然资源遥感监测技术和应用》，子课题负责人

2011.09，中国科学院“西部之光”人才培养计划
2012.09，中国科学院青年创新促进会

1.Fu, H., Fu, B., & Shi, P. (2021). An Improved Segmentation Method for Automatic Mapping of Cone Karst from Remote Sensing Data Based on DeepLab V3+ Model. Remote Sensing, 13, 441
2.Guo, X., Fu, B., Du, J., Shi, P., Li, J., Li, Z., Du, J., Chen, Q., & Fu, H. (2021). Monitoring and assessment for the susceptibility of landslide changes after the 2017 Ms 7.0 Jiuzhaigou earthquake using the remote sensing technology. Frontiers in Earth Science, 9, 43
3.Zheng, S., An, Y., Shi, P., & Zhao, T. (2021). Mapping the Lithological Features and Ore-Controlling Structures Related to Ni–Cu Mineralization in the Eastern Tian Shan, NW China from ASTER Data. Remote Sensing, 13, 206
4.Cudahy, T., Shi, P., Novikova, Y., & Fu, B. (2020). Satellite ASTER Mineral Mapping the Provenance of the Loess Used by the Ming to Build their Earthen Great Wall. Remote Sensing, 12, 270
5.Du, J., Fu, B., Guo, Q., & Shi, P. (2020). Monitoring and Assessment of the Oasis Ecological Resilience Improved by Rational Water Dispatching Using Multiple Remote Sensing Data: A Case Study of the Heihe River Basin, Silk Road. Remote Sensing, 12, 2577
6.Du, J., Fu, B., Guo, Q., Shi, P., Xue, G., & Xu, H. (2020). Segmentation and termination of the surface rupture zone produced by the 1932 Ms 7.6 Changma earthquake: New insights into the slip partitioning of the eastern Altyn Tagh fault system. Lithosphere, 12, 19-39
7.Zhou, W., Chen, F., Guo, H., Hu, M., Li, Q., Tang, P., Zheng, W., Liu, J.a., Luo, R., Yan, K., Li, R., Shi, P., & Nie, S. (2020). UAV Laser scanning technology: a potential cost-effective tool for micro-topography detection over wooded areas for archaeological prospection. International Journal of Digital Earth, 13, 1279-1301
8.Chen, X., Fu, B., Shi, P., & Guo, Q. (2019). Vegetation dynamics in response to climate change in Tianshan, Central Asia from 2000 to 2016. Arid Land Geography, 42, 162-171
9.Luo, L., Wang, X., Guo, H., Lasaponara, R., Zong, X., Masini, N., Wang, G., Shi, P., Khatteli, H., Chen, F., Tariq, S., Shao, J., Bachagha, N., Yang, R., & Yao, Y. (2019). Airborne and spaceborne remote sensing for archaeological and cultural heritage applications: A review of the century (1907-2017). Remote Sensing Of Environment, 232
10.Miao, Y., Wu, F., Warny, S., Fang, X., Lu, H., Fu, B., Song, C., Yan, X., Escarguel, G., Yang, Y., Meng, Q., & Shi, P. (2019). Miocene fire intensification linked to continuous aridification on the Tibetan Plateau. Geology, 47, 303-307
11.Luo, L., Wang, X., Guo, H., Lasaponara, R., Shi, P., Bachagha, N., Li, L., Yao, Y., Masini, N., Chen, F., 2018. Google Earth as a Powerful Tool for Archaeological and Cultural Heritage Applications: A Review. Remote Sens-Basel 10, 1558.
12.Fu, B., Shi, P., Fu, H., Ninomiya, Y., & Du, J. (2019). Geological mapping using multispectral remote sensing data inthe western China. In, Geoscience and Remote Sensing Symposium (IGARSS), 2019 IEEE International
13.Luo, L., Wang, X., Guo, H., Lasaponara, R., Shi, P., Bachagha, N., Li, L., Yao, Y., Masini, N., Chen, F., 2018. Google Earth as a Powerful Tool for Archaeological and Cultural Heritage Applications: A Review. Remote Sens-Basel 10, 1558.
14.徐焕, 付碧宏, 郭强, 时丕龙, 薛国梁, 2018. 西咸一体化过程与城市扩展研究. 遥感学报 22, 347-359.
15.Lu H, Fu B, Shi P, et al. Late-Miocene thrust fault-related folding in the northern Tibetan Plateau: Insight from paleomagnetic and structural analyses of the Kumkol basin. Journal of Asian Earth Sciences, 2018.
16.Jing, Z., Bihong, F., Pilong, S., & Qiang, G. (2017). Investigation of lithospheric structure in Mongolia: insights from INSAR observations and modelling. International Archives of the Photogrammetry, Remote Sensing & Spatial Information Sciences, 42(XLII-2/W7), 609-616
17.Pilong, S., Bihong, F., Thomas, C., Qiang, G., Huan, X., Xiuyan, C., Yuanxu, M., Guoliang, X., (2017). Desertification monitoring using ASTER global emissivity dataset. In Geoscience and Remote Sensing Symposium (IGARSS), 2017 IEEE International, 2017: 4501-4504.
18.Guo, Q., Fu, B., Shi, P., Cudahy, T., Zhang, J., & Xu, H. (2017). Satellite Monitoring the Spatial-Temporal Dynamics of Desertification in Response to Climate Change and Human Activities across the Ordos Plateau, China. Remote Sensing, 9(6), 525.
19.Xiuyan, C., Bihong, F., Pilong, S. (2017). Tempo-spatial changes of vegetation coverage using remote sensing in Altay, China. IOP Conference Series: Earth and Environmental Science, IOP Publishing
20.Cudahy, T., Caccetta, M., …, Shi, P., Mitchell, R. (2016). Satellite-derived mineral mapping and monitoring of weathering, deposition and erosion. Nature Scientific Reports, 6, 23702. doi:10.1038/srep23702
21.Shi, P., Fu, B., Ma, Y., Guo, Q., and Xu, H., 2016. Remote sensing detection for surface anomalies related to hydrocarbon in Bashibulake uranium ore, southern Tianshan, Geoscience and Remote Sensing Symposium (IGARSS), 2016 IEEE International, Beijing China.
22.Xu, S., Zheng, G., Zheng, J., Zhou, S., Shi, P., 2016. Mantle-derived helium in foreland basins in Xinjiang, Northwest China. Tectonophysics 694, 319-331.
23.Lu, H., Fu, B., Shi, P., Ma, Y., Li, H., 2016. Constraints on the uplift mechanism of northern Tibet. Earth And Planetary Science Letters 453, 108-118.

2018.9，陈秀妍，《中国图象图形学报》编辑部