Teaching

·     Graduate Student Course：Anisotropy and Multicomponent Seismology”

·     Undergraduate Student Course: “Digital Signal Processing”, “Applications of Computer in Geoscience–Introduction & Advance of Linux Programming”

Research Interests

·     My team focuses on seismic imaging of the lithosphere and petroleum reservoirs using the theories and approaches of seismology, geology and rock physics. Taking into account elastic heterogeneity and anisotropy of the Earth’s media as well as intrinsic attenuation within seismic frequency-band, we make efforts for developing advanced imaging and inversion techniques for active- and passive-source seismic data. The objectives include promoting the capability to characterize the lithosphere, subduction belts, sedimentary basin and petroleum reservoirs with high-resolution, and to monitor the production of petroleum and geothermal resources and the injection of CO2.

Projects

Current Projects

·     Microseismic moment tensor imaging and inversion based upon elastic wave mode decoupling：supported by the National Natural Science Foundation of China (No. 41674117), 2017.1-2020.12

·     Elastic wave mode separation and vector decomposition and their applications to full-wave seismic imaging in anisotropic media：supported by the National Natural Science Foundation of China (No. 41474099), 2015.1-2018.12

·     Seismic forward modelling and migration on E-level computational platform：supported National Key Research & Development Program of China(No.2017YFB0202903), 2017.7～2021.6

·     Full waveform inversion of seismic data for reservoir attributes: King Abdullah University of Science and Technology (KAUST) Office of Sponsored Research (OSR) under Award 2230 (2015/07-2018/06)，2015/07-2018/06

Completed Projects

·     Velocity model building approaches and software modules based on reflection tomography from topography：supported by CNPC CDEC Sichuan Geophysical Company，2011.9～2014.12

·     Theory and approach of elastic wave mode separation and vector decomposition for anisotropic media：supported by the Natural Science Foundation of Shanghai (No. 14ZR1442900)，2014.7-2017.6

·     Key geophysical technologies for prospecting the mid and deep potential reservoirs under complicated geological conditions in South Yellow Sea: supported by  the Fundamental Research Funds for the Central Universities of China (No. 1350219123)，2011.7-2014.6

·     Anisotropic velocity model estimation by tomography using local angle-domain prestack migration data：supported by the National Natural Science Foundation of China (No. 41074083)，2011.1-2013.12

·     Azimuth-preserved angle-domain prestack time migration from irregular topography：supported by CNPC CDEC Sichuan Geophysical Company，2012.10～2014.6

·     Azimuthal angle-domain prestack depth migration approach for fractured media：supported by the National Natural Science Foundation of China (No. 40704022) ，2008.1-2010.12

·     Construction of Azimuthal Angle-domain Common-Image Gathers，Supported by SINOPEC, 2011.1～2011.12

·     Full-azimuth local angle-domain prestack time migration，Supported by BGP, CNPC, 2009.11～2010.12

Publications

·     Peng Zou, Jiubing Cheng,2018. Pseudo-spectral method using rotated staggered grid for elastic wave propagation in 3D arbitrary anisotropic media: Geophysical Prospecting, 66(1), 47-61.

·     Xinchao Yang, Long Teng, Jingnan Li and Jiubing Cheng, 2017, Bayesian linearized AVF inversion for quality factor and its application: Journal of Geophysics and Engineering, DOI: 10.1088/1742-2140/aa91f0.

·     T.F. Wang, J.B. Cheng, 2017 Elastic full-waveform inversion based on mode decomposition: the approach and mechanism: Geophysical Journal international, 209(2), 606~622. 

·     Yanadet Sripanich，Sergey Fomel，Junzhe Sun，Jiubing Cheng，2017.Elastic wave vector decomposition in heterogeneous anisotropic media: Geophysical Prospecting，65(5),1231–1245.

·     Chenlong Wang, Jiubing Cheng, and Børge Arntsen, 2016. Scalar and vector imaging based on wave mode decoupling for elastic reverse time migration in isotropic and transversely isotropic media. GEOPHYSICS, 81(5), S383-S398.

·     Jiubing Cheng, Tariq Alkhalifah, Zedong Wu, Peng Zou, and Chenlong Wang, 2016, Simulating propagation of decoupled elastic waves using low-rank approximate mixed-domain integral operators for anisotropic media. GEOPHYSICS, 81(2), T63-T77.

·     Jiubing Cheng and Wei Kang, 2016. Simulating propagation of separated wave modes in general anisotropic media, Part II: qS-wave propagators. GEOPHYSICS, 81(2), C39-C52.

·     Ehsan Zabihi Naeini，Ilya Tsvankin，Tariq Alkhalifah，Nishant Kamath，Jiubing Cheng，2016.Main components of full-waveform inversion for reservoir characterization，First Break，34：37~48.

·     Cheng Jiubing and Kang Wei, 2014, Simulating propagation of separated wave modes in general anisotropic media, Part I: P-wave propagators: Geophysics, 79 (1), C1-C18.

·     Cheng Jiubing and Sergey Fomel, 2014, Fast algorithms of elastic wave mode separation and vector decomposition using low-rank approximation for anisotropic media: Geophysics: 79 (4), C97–C110

·     Zhao Luanxiao, Geng Jianhua, Cheng Jiubing, Han Dehua and Guo Tonglou, 2014, Rock physics based probabilitic lithofacies prediction: A case study in a heterogeneous carbonate reservoir of Sichuan Basin, SW China : Geophysics, 79(5), M25–M34,

·     Duan P.F., Cheng J.B., Chen S.P., and He G.M., 2013, Local angle-domain ray-tracing and prestack depth migration in TI medium: Chinese J. of Geophysics （in Chinese), 56(1), 269-279.

·     Duan P.F., Cheng J.B., Chen A.P., and He G.M., 2013, Local angle-domain gaussian beam prestack depth migration in a TI medium: Chinese J. of Geophysics （in Chinese), 56(12), 4206-4214.

·     Wang C. L., Cheng J. B., Yin C. and Liu H., 2013, Microseismic events location of surface and borehole observation with reverse time focusing using interferometry technique: Chinese J. of Geophysics（in Chinese）, 56(9), 3184-3196.

·     Cheng Jiubing, Wang Tengfei, Wang Chenlong, and Geng Jianhua, 2012, Azimuth-preserved local angle-domain prestack time migration in isotropic, vertical transversely isotropic and azimuthally anisotropic media: Geophysics, 77, 2, S51-S64.

·     KANG Wei, CHENG Jiu-Bing. 2012, Pseudo-acoustic wave equations for reverse-time migration in TI media: Chinese J. Geophys. (in Chinese), 55(3),1033-1045.

·     Cheng J., Geng J., Wang H. and Ma Z., 2011, 3D Kirchhoff prestack time migration in average illumination-azimuth and incident-angle domain for isotropic and vertical transversely isotropic media: Geophysics, 76, 1, S15-S27.

·     Kai Yang, Hong-Ming Zheng, Li wang, Yu-Zhu Liu, Fan Jiang, Jiu-Bing Cheng, Zai-Tian Ma, 2009, Application of an integrated wave-equation datuming scheme to overthrust data: A case history from the Chinese foothills: Geophysics, 74, 5, B153-B165.

·     Cheng Jiu-Bing, Wang Nan and Ma Zaitian, 2009, Table-Driven 3-D Angle-Domain Imaging Approach for Kirchhoff Prestack Time Migration: Chinese J. Geophys., 52(2),461-470

·     Cheng J B, Ma Z T, Geng J H and Wang H Z, Double-square-root one-way wave equation prestack tau migration in heterogeneous media: Geophysical Prospecting, 2008, 56, 69-85.

·     Wang Di, Zheng Xiaodong, Cheng Jiubing, Wang Huazhong and Ma zaitian, 2008, Amplitude- preserving plane-wave prestack time migration for AVO analysis: Applied Geophyisics,5(3), 212-218.

·     Cheng J B, Ma Z T, Geng J H and Wang H Z, 2007, DSR one-way wave equation prestack ô- migration: Chinese J. Geophys., 50(1), 241-248.

·     Zhang K, Cheng J B, Ma Z T and Zhang W, 2006, Pre-stack time migration and velocity analysis methods with common scatter-point gathers: Journal of Geophysics and Engineering,3(3), 283-289.

·     Cheng J B, Wang H Z, Ma Z T, 2005,Double square root equation migration methods of narrow azimuth seismic data. Chinese J. Geophys., 48(2), 399-405.

·     Cheng J B, Wang H Z, Ma Z T, 2003, DSR-based wave equation 3-D prestack depth migration: Chinese Journal of Geophysics, 46(5), 676-683.

·     Cheng J B, Wang H Z, Ma Z T, 2001, Pre-stack depth migration with finite-difference method in frequency-space domain, Chinese Journal of Geophysics, 44(3), 389-395.