代表性论文：

2025年

1. Wang H, Yang F*, et al. From GNSS zenith tropospheric delay to precipitable water vapor: Accuracy assessment using in-situ and reanalysis meteorological data over China. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2025. (IF=4.7, JCR一区, 中科院二区)

2. Yang F*, Sun Y, et al. A new way to obtain the weighted mean temperature (Tm): Using the Geostationary Interferometric Infrared Sounder (GIIRS) equipped on FengYun Satellite. Atmospheric Research, 2025, 318, 107997. (IF=4.5，JCR一区，中科院二区)
3. Wen Z, Yang, F*, et al. Spatio-temporal evaluation of tropospheric delay products in China using CMONOC data as reference. Advances in Space Research, 2025, 6, 75. (IF=2.8，JCR一区，中科院三区)
4. Du, T, Yang, F*, et al. Long Time Series Spatiotemporal Variations in NPP Based on the CASA Model in the Eco-Urban Agglomeration Around Poyang Lake, China. Remote Sensing. 2025, 17, 80. (IF=4.2，JCR一区，中科院二区)
5. 杨飞*，汪莹莹等. 基于GNSS观测的2023北京特大暴雨分析. [J]. 测绘学报, 2025,54(1):14-25.
6. Hao, R, Yang, F, et al. ERA5-SH: A global grided scale height dataset for tropospheric parameters based on ERA5 reanalysis. *Scientific Data, 2025, 12, 381. (IF=5.8，JCR一区，中科院二区)

   2024年

7. Wang Y, Yang F*, et al. An optimal calibration method for MODIS precipitable water vapor using GNSS observations. Atmospheric Research. 2024, 309(15), 107591.(IF=4.5,JCR一区,中科院二区)
8. Zhang H, Yang F*, et al. Evaluation of the Zenith Tropospheric Delay (ZTD) Derived from VMF3_FC and VMF3_OP Products Based on the CMONOC Data. Atmosphere, 2024. (IF=2.5, JCR三区，中科院四区)
9. Yao Y, Yang F*, et al. Comparing discrete and empirical troposphere delay models: A global IGS-based evaluation. Radio Science, 2024, 59(6), 1-12. (IF=1.6,JCR三区，中科院四区)
10. Hao R, Xu T, Yang F*, et al. Spatial-Temporal Variation of Water Vapor Scale Height and Its Impact Factors in different climate zones of China. Advances in Space Research, 2024, 74(4), 1576-1585. (IF=2.8，JCR二区，中科院三区)
11. Wang J, Cui K, Yang F*, et al. Evaluation of Spatiotemporal variation and Impact factors for Vegetation Net Primary Productivity in a typical open-pit Mine in northwest China. Land Degradation and Development, 2024, 35(12), 3756-3770.(IF=3.6,JCR二区，中科院二区)
12. Yang F*, Liu M, et al. Higher accuracy estimation of the weighted mean temperature (Tm) using GPT3 model with new grid coefficients over China. Atmospheric Research, 2024, 305, 107424. (IF=4.5,JCR一区，中科院二区)
13. Li J, Yang F*, et al. Unraveling the accuracy enigma: investigating ZTD data precision in TUW-VMF3 and GFZ-VMF3 products using a comprehensive global GPS dataset. IEEE Transactions on Geoscience and Remote Sensing, 2024, 62, 5800710. (IF=7.5,JCR一区，中科院一区)
14. Yang F*, Gong X, et al. Spatiotemporal distribution and impact factors of GNSS-PWV in China based on climate region. Advances in Space Research, 2024, 73, 8, 4187-4201. (IF=2.8，JCR一区，中科院三区)
15. Yuan D, Li J, Yang F*, et al. Assessment of the three representative empirical models for zenith troposphere delay (ZTD) using the CMONOC data. Geodesy and Geodynamics. 2024. (IF=2.8，JCR二区，中科院四区)
16. 杨飞*，崔宽宽等. 露天煤矿排土场长时序植被碳汇分级方法构建及分析[J]. 煤田地质与勘探, 2024, 52(5): 139-150.

    2023年

17. Yang F*, Gong X, Wang Y. et al. GNSS water vapor tomography based on Kalman filter with optimized noise covariance. GPS Solutions 2023, 27, 181. (IF=4.5，JCR一区，中科院一区)
18. Yang F*, Sun Y, Meng X, et al. Assessment of tomographic window and sampling rate effects on GNSS water vapor tomography. Satellite Navigation. 2023, 4, 7. (IF=9，JCR一区，中科院一区)
19. Sun Y, Yang F*, Liu M. et al. Evaluation of the weighted mean temperature over China using multiple reanalysis data and radiosonde. Atmospheric Research. 2023, 285, 106664. (IF=4.5，JCR一区，中科院二区)

    2022年

20. Yang F*, Guo J, Meng X, et al. GGTm-Ts: a global grid model of weighted mean temperature (Tm) based on surface temperature (Ts) with two modes. Advances in Spaces Research. 2022, 71(3): 1510-1524. (IF=2.8，JCR一区，中科院三区)
21. Yang F*, Wang L, Li Z, et al. A weighted mean temperature (Tm) augmentation method based on global latitude zone. GPS Solutions, 2022, 26, 141. (IF=4.5，JCR一区，中科院一区)
22. Li Z, Gong X, Liu M, Yang F*. A Temperature Refinement Method Using the ERA5 Reanalysis Data. Atmosphere, 2022, 13, 1622. (IF=2.5,JCR三区，中科院四区)
23. Li J, Guo T, Yang F*, et al. The fractional vegetation cover (FVC) and associated driving factors modelling in mining areas. Photogrammetric Engineering and Remote Sensing. 2022. (IF=1,JCR四区，中科院四区)
24. Sun Y, Jiang J, Yang F*, et al. Spatial-temporal variation analysis of water storage and their impacts on ecological environment in high-intensity coal mining areas. Land Degradation and Development.2023, 34(2): 338-352. (IF=3.6,JCR二区，中科院二区)
25. Yang F*, Wang J, Wang H, Gong X, et al. Assessment of the Water Vapor Tomography Based on Four Navigation Satellite Systems and Their Various Combinations. Remote Sens. 2022, 14, 3552. (IF=4.2,JCR一区，中科院二区)
26. Yang F*, Wang J, et al. The Impact of Human Activities on Net Primary Productivity in a Grassland Open-Pit Mine The Case Study of the Shengli Mining Area in Inner Mongolia, China. Land, 2022. (IF=3.2,JCR二区，中科院二区)
27. 杨飞*. 地基GNSS反演水汽空间分布关键技术研究. 测绘学报. 2022, 51(3): 470.
28. 杨飞*, 郭际明, 陈明, 章迪. GNSS大气加权平均温度经验模型精化方法的建立和分析[J]. 测绘学报, 2022, 51(11): 2339-2345.
29. 杨飞, 张成业, 李军等. 基于GRACE 的黄河流域陆地水储量时空变化研究[J]. 煤田地质与勘探,2022, 50(4): 106−112.

    2021年

30. Yang F*, Meng X, Guo J, Yuan D, Chen M. Development and Evaluation of the Refined Zenith Tropospheric Delay (ZTD) models. Satell Navig. 2021, 2: 21(IF=9,JCR一区，中科院一区)
31. Yang F*, Guo J, Meng X, Li J, Zou J, Xu Y. Establishment and Assessment of a Zenith Wet Delay (ZWD) Augmentation Model. GPS Solut. 2021, 25: 148. (IF=4.5，JCR一区，中科院一区)
32. Yang F*, Guo J, Li J, Zhang C, Chen M. Assessment of the Troposphere Products Derived from VMF Data Server with EAR5 and IGS Data over China. Earth Space Sci. 2021, e2021EA001815. (IF=2.9，JCR二区，中科院三区)
33. Yang F*, Guo J, Meng X, Li J, Zhou L. A Global Grid Model for Calibration of Zenith Hydrostatic Delay. Advances in Space Research. 2021, 68, 3574-3583. (IF=2.8，JCR一区，中科院三区)
34. Yang F*, Guo J, Zhang C, Li Y, Li J. A Regional Zenith Tropospheric Delay (ZTD) Model Based on GPT3 and ANN. Remote Sensing. 2021, 13, 838. (IF=4.5，JCR一区，中科院一区)
35. 杨飞*，郭际明，李弈韬，等. GPT3模型估计对流层产品精度检验与分析. 大地测量与地球动力学. 2021, 41(11): 1123-1126.

    2020年及以往

36. Yang F, Guo J, Meng X. et al. An improved weighted mean temperature (Tm) model based on GPT2w with Tm lapse rate. GPS Solutions, 2020, 24, 46. (IF=4.5，JCR一区，中科院一区)
37. Yang F, Meng X, Guo J. et al. The Influence of Different Modelling Factors on Global Temperature and Pressure Models and Their Performance in Different Zenith Hydrostatic Delay (ZHD) Models. Remote Sens. 2020, 12, 35. (IF=4.5，JCR一区，中科院一区)
38. Yang F, Guo J, Shi J, Meng X. et al. A GPS water vapor tomography method based on a genetic algorithm. Atmospheric Measurement Technique. 2020, 13, 355–371. (IF=3.2，JCR二区，中科院三区)
39. Yang F, Guo J, Meng X, Shi J. et al. Determination of Weighted Mean Temperature (Tm) Lapse Rate and Assessment of Its Impact on Tm Calculation. IEEE Access. 2019, 7,1. (IF=3.4，JCR二区，中科院三区)
40. Yang F, Guo J, Meng X, Shi J, Zhou L. Establishment and Assessment of a New GNSS Precipitable Water Vapor Interpolation Scheme Based on the GPT2w Model. Remote Sens. 2019, 11, 1127. (IF=4.5，JCR一区，中科院一区)
41. Yang F, Guo J, Shi J, et al. A New Method of GPS Water Vapor Tomography for Maximizing the Use of Signal Rays. Appl. Sci. 2019, 9, 1446. (IF=2.5，JCR一区，中科院四区)
42. Yang F, Guo J, Shi J, Zhou L, et al. A Method to Improve the Distribution of Observations in GNSS Water Vapor Tomography. Sensors. 2018, 18, 2526. (IF=3.4，JCR二区，中科院三区)
43. Guo J, Yang F, Shi J, Xu C. An Optimal Method of Global Positioning System (GPS) Troposphere Tomography. IEEE J Sel Top Appl Earth Obs Remote Sens. 2016, 12, 5880-5887. (IF=4.7，JCR一区，中科院二区)