期刊论文


     一作/通讯

  1. Zhuo, M., Wang, Y.*, Zhang, X. and Chen, Z., 2025. High-Accuracy Crater Detection for Complex Planetary Surfaces. IEEE Transactions on Geoscience and Remote Sensing.
  2. Wu, B*., Wang, Y.*, Werner, S. C., Nils, C. P., Xiao, Z., 2022, A global analysis of crater depth/diameter ratios on the Moon. Geophysical Research Letters, 49, 20,.
  3. Wang, Y., Wu, B., Xue, H., Li, X., and Ma, J., 2021, An improved global catalog of Lunar impact craters (≥ 1 km) with 3D morphometric information and updates on global crater analysis. Journal of Geophysical Research: Planets, v. 126, no. 9, p. e2020JE006728. 
  4. Wang, Y. and Li, X., 2021. Arctic sea ice cover data from spaceborne synthetic aperture radar by deep learning. Earth System Science Data, 13(6), pp.2723-2742.
  5. Wang, Y. and Wu, B., 2019, Active machine learning approach for crater detection from planetary imagery and digital elevation models. IEEE Transactions on Geoscience and Remote Sensing, v. 57, no. 8, p. 5777-5789.
  6. Wang, Y., Zhu, X. and Wu, B. 2018. Automatic detection of individual oil palm trees from UAV images using HOG features and an SVM classifier. International Journal of Remote Sensing,  40(19): 7356-7370.
  7. Wang, Y. and Wu, B., 2017, Investigation of boresight offsets and co-registration of HiRISE and CTX imagery for precision Mars topographic mapping. Planetary and Space Science, v. 139, p. 18-30.
  8. Wang, Y. and Li, X., 2016. Derivation of sea surface wind directions from TerraSAR-X data using the local gradient method. Remote Sensing, 8(1), p.53.


     合作论文

  1. Wu, B., Dong, J., Wang, Y., Rao, W., Sun, Z., Krasilnikov, S., Li, Z., Tan, Z., Chen, Z., Wang, C. and Ivanov, M., 2024. A probable ancient nearshore zone in southern Utopia on Mars unveiled from observations at the Zhurong landing area. Scientific Reports, 14(1), p.24389.
  2. Xu, L., Qiao, L., Xie, M., Wang, Y., Zhu, M.H. and Yan, J., 2024. Chronology, local stratigraphy, and foreign ejecta materials at the Chang'e‐6 landing site: Constraints on the provenance of samples returned from the Moon's farside. Geophysical Research Letters, 51(24), p.e2024GL111311.
  3. Qiao L., Hess M., Xu L., Wöhler C., Head JW., Chen J., Wang Y., Bugiolacchi R., Xiao A., Zhang F., Ling Z., 2023. Extensive Lunar Surface Disturbance at the Chang'e‐5 Mission Landing Site: Implications for Future Lunar Base Design and Construction. Journal of Geophysical Research: Planets, 128(6):e2022JE007730. 
  4. Qian, Y., She, Z., He, Q., Xiao, L., Wang, Z., Head, J.W., Sun, L., Wang, Y., Wu, B., Wu, X. and Luo, B., 2023. Mineralogy and chronology of the young mare volcanism in the Procellarum-KREEP-Terrane. Nature Astronomy, pp.1-11. 
  5. Wu, B., Dong, J., Wang, Y., Rao, W., Sun, Z., Li, Z., Tan, Z., Chen, Z., Wang, C., Liu, W.C. and Chen, L., 2022. Landing site selection and characterisation of Tianwen‐1 (Zhurong Rover) on Mars. Journal of Geophysical Research: Planets, p.e2021JE007137.
  6. Lu, Y., Edgett, K.S., Wu, B., Wang, Y., Li, Z., Michael, G.G., Yizhaq, H., Jin, Q. and Wu, Y., 2022. Aeolian disruption and reworking of TARs at the Zhurong rover field site, southern Utopia Planitia, Mars. Earth and Planetary Science Letters, 595, p.117785.
  7. Chen, Z., Wu, B., Wang, Y., Liu, S., Li, Z., Yang, C., Dong, J. and Rao, W., 2022. Rock Abundance and Erosion Rate at the Zhurong Landing Site in Southern Utopia Planitia on Mars. Earth and Space Science, 9(8), p.e2022EA002252. 
  8. Wu, B., Dong, J., Wang, Y., Li, Z., Chen, Z., Liu, W.C., Zhu, J., Chen, L., Li, Y. and Rao, W., 2021. Characterization of the candidate landing region for Tianwen‐1—China's first mission to Mars. Earth and Space Science, 8(6), p.e2021EA001670. 
  9. Wu, B., Li, Y., Liu, W.C., Wang, Y., Li, F., Zhao, Y. and Zhang, H., 2021. Centimeter-resolution topographic modeling and fine-scale analysis of craters and rocks at the Chang'E-4 landing site. Earth and Planetary Science Letters, 553, p.116666. 
  10. Wu, B., Li, F., Hu, H., Zhao, Y., Wang, Y., Xiao, P., Li, Y., Liu, W. C., Chen, L., and Ge, X., 2020. Topographic and geomorphological mapping and analysis of the Chang'E-4 landing site on the far side of the Moon. Photogrammetric Engineering & Remote Sensing, v. 86, no. 4, p. 247-258.
  11. Wu, B., Wang, Y., Lin, T. J., Hu, H., and Werner, S. C., 2019, Impact cratering in and around the Orientale Basin: Results from recent high-resolution remote sensing datasets. Icarus, v. 333, p. 343-355.
  12. Wu, B., Huang, J., Li, Y., Wang, Y. and Peng, J., 2018. Rock abundance and crater density in the candidate Chang'E‐5 landing region on the Moon. Journal of Geophysical Research: Planets, 123(12), pp.3256-3272.