个人简历

潘雨迪,1990年生,湖北武汉人。武汉大学测绘学院 教授

研究兴趣:环境与工程地震学、地震波全波形反演、浅地表地球物理、噪声地震学、城市地球物理

联系方式

招生信息                                                  

  • 拟招收2023年入学的硕士研究生1-3名,博士研究生2-4名,欢迎有兴趣的同学邮件联系!
  • 欢迎地球物理、地球探测与信息技术、岩土工程、数学、计算机等学科背景的同学加入课题组
  • 长期招聘博士后前来进行科研工作(武汉大学重点资助博士后;特别优秀者可面议)

教育及工作经历                                                   

  • 2022.01 –               ,    武汉大学,教授
  • 2019.03 – 2019.03,   美国博伊西州立大学,访问学者
  • 2016.09 – 2021.10,   德国卡尔斯鲁厄理工学院,博士后、讲师
  • 2015.08 – 2015.11,   德国于利希研究中心,访问学生
  • 2012.09 – 2016.06,   中国地质大学(武汉),地球物理学 博士
  • 2008.09 – 2012.06,   中国地质大学(武汉),地球物理学 本科

学术兼职

  • 学术委员会成员:2018年EAGE-HAGI 第一届亚太近地表地球科学和工程国际会议(1st Asia Pacific Meeting on Near Surface Geoscience & Engineering),2021年AGU-SEG 浅地表全波形成像研讨会 (‘Near-surface imaging with FWI: theory and applications’)
  • 期刊审稿人:Geophysics, Geophysical Journal International, Computers & Geosciences, Journal of Applied Geophysics, Near surface Geophysics, Earth and Space Science
  • 基金评审人Dutch Research Council

已发表的期刊论文                                                           

  • Qin, T., Bohlen, T., and Pan, Y., 2022, Indirect joint petrophysical inversion of synthetic shallow-seismic and multi-offset ground-penetrating radar data: Geophysical Journal International, 229, 1770–1784.
  • Irnaka, T.M., Brossier, R., Métivier, L., Bohlen, T., and Pan, Y., 2022, 3D Multi-component Full Waveform Inversion for Shallow-Seismic Target: Ettlingen Line Case Study: Geophysical Journal International, 229, 1017-1040.
  • Pan, Y., Gao, L., and Bohlen, T., 2021, Random-objective waveform inversion of 3D-9C shallow-seismic field data: Journal of Geophysical Research: Solid Earth. e2021JB022036.
  • Gao, L., Pan, Y., Andreas Rieder, and Bohlen, T., 2021, Multiparameter viscoelastic full waveform inversion of shallow seismic surface waves with a preconditioned truncated-Newton method: Geophysical Journal International, 227, 2044–2057.
  • Pan, Y. and Gao, L., 2020, Random objective waveform inversion of surface waves: Geophysics, 85(4), EN49-EN61.
  • Gao, L.,Pan, Y., and Bohlen, T., 2020, 2D multi-parameter viscoelastic shallow-seismic full waveform inversion: reconstruction tests and first field-data application: Geophysical Journal International, 222, 560-571.
  • Pan, Y., Gao, L., and Shigapov, R., 2020, Multi-objective waveform inversion of shallow-seismic wavefields: Geophysical Journal International, 220, 1619-1631.
  • Forbriger, T., Gao, L., Malischewsky, P., Ohrnberger, M., and Pan, Y., 2020, A single Rayleigh mode may exist with multiple values of phase-velocity at one frequency: Geophysical Journal International, 222, 582-594.
  • Krampe, V., Pan, Y., and Bohlen, T., 2019, Two-dimensional elastic full-waveform inversion of Love waves in shallow vertically transversely isotropic media: synthetic reconstruction tests: Near Surface Geophysics, 17, 449-461.
  • Pan, Y., Gao, L., and Bohlen, T., 2019, High-resolution characterization of near-surface structures by surface-wave inversions: From dispersion curve to full waveform: Surveys in Geophysics, 40(2), 167-195.
  • Pan, Y., Schaneng, S., Steinweg, T., and Bohlen, T., 2018, Estimating 3D S-wave velocities from 9C shallow seismic data using local Rayleigh wave dispersion curves – A field study: Journal of Applied Geophysics, 159, 532-539.
  • Pan, Y., Gao, L., and Bohlen, T., 2018, Time-domain full-waveform inversion of Rayleigh and Love waves in presence of free-surface topography: Journal of Applied Geophysics, 152, 77-85.
  • Gao, L., Pan, Y., Tian, G., and Xia, J., 2018, Estimating Q factor from multi-mode shallow-seismic surface waves: Pure and Applied Geophysics, 175 (8), 2609-2622.
  • Gao, L. and Pan, Y., 2018, Source signature estimation from multimode surface waves via mode-separated virtual real source method: Geophysical Journal International, 213, 1177-1186.
  • Cheng, F., Xia, J., Luo, Y., Xu, Z., Wang, L., Shen, C., Liu, R., Pan, Y., Mi, B., and Hu, Y., 2016, Multi-channel analysis of passive surface waves based on cross-correlations: Geophysics, 81, no. 5, EN57-EN66.
  • Pan, Y., Xia, J., Xu, Y., and Gao, L., 2016, Multichannel analysis of Love waves in 3D seismic acquisition system: Geophysics, 81, no. 5, EN67-EN74.
  • Pan, Y., Xia, J., Xu, Y., Gao, L. and Xu, Z., 2016, Love-wave waveform inversion for shallow shear-wave velocity using a conjugate gradient algorithm: Geophysics, 81, no.1, R1-R14.
  • Pan, Y., Xia, J., Xu, Y., Xu, Z., Cheng, F., Xu, H., and Gao, L., 2016, Delineating shallow S-wave velocity structure using multiple ambient-noise surface-wave methods: An example from Western Junggar, China: Bulletin of the Seismological Society of America, 106, 327-336.
  • Gao, L. and Pan, Y., 2016, Acquisition and processing pitfall with clipped traces in surface-wave analysis: Journal of Applied Geophysics, 125, 1-6.
  • Gao, L., Xia, J., Pan, Y., and Xu, Y., 2016, Reason and condition for mode kissing in MASW method: Pure and Applied Geophysics, 173(5), 1627-1638.
  • Xu, Z., Xia, J., Luo, Y., Cheng, F., and Pan, Y., 2016, Misidentification of Love-wave phase velocity based on three-component ambient seismic noise: Pure and Applied Geophysics, 173(4), 1115-1124.
  • Shen, C., Xu, Y., Pan, Y., Wang, A., and Gao, L., 2016, Sensitivities of phase-velocity dispersion curves of surface waves due to high-velocity-layer and low-velocity-layer models: Journal of Applied Geophysics, 135, 367-374.
  • Cheng, F., Xia, J., Xu, Y., Xu, Z., and Pan, Y., 2015, A new passive survey method based on seismic interferometry and multichannel analysis of surface waves: Journal of Applied Geophysics, 117, 126-135.
  • 夏江海, 高玲利, 潘雨迪, 沈超, 尹晓菲, 2015, 高频面波方法的若干新进展:地球物理学报 , 58(8), 2591-2605.
  • Gao, L., Xia, J., and Pan, Y., 2014, Misidentification caused by leaky surface wave in high-frequency surface-wave method: Geophysical Journal International, 199, 1452-1462.
  • Pan, Y., Xia, J., Gao, L., Shen, C., and Zeng, C., 2013, Calculation of Rayleigh-wave phase velocities due to models with a high-velocity surface layer: Journal of Applied Geophysics, 96, 1-6.
  • Pan, Y., Xia, J., and Zeng, C., 2013, Verification of correctness of using real part of complex root as Rayleigh-wave phase velocity with synthetic data: Journal of Applied Geophysics, 88, 94-100.