PUBLICATIONS
Published or in press in peer-review journals (49)
[1] Kuang, W., and
J. Zhang. 2020, Direct stress field estimation through waveform matching. Geophysical Journal International, Accepted.
[2] Sun, M., and
J. Zhang. 2020, The first arrival shingling and its detection via unsupervised machine learning: Geophysics, Accepted.
[3] Ma, Y., C. Yuan,
J. Zhang. 2020, Joint inversion for microseismic event locations and anisotropic parameters with the cross double-difference method in VTI media. Geophysics, Accepted.
[4] Yuan, C., X. Zhang, X. Jia, and
J. Zhang, 2020, Time-lapse Velocity Imaging via Deep Learning: Geophysical Journal International, 220, 1228-1241. https://doi.org/10.1093/gji/ggz511
[5] Zhuang, J., M. Holay, J. H. Park, R. Fang,
J. Zhang, L. Zhang, 2019, Nanoparticle Delivery of Immunostimulatory Agents for Cancer Immunotherapy. Theranostics, 9(25), 7826-7848. doi:10.7150/thno.37216.
[6] Li, Z.,
J. Zhang, D. Liu, and J. Du. 2019, CT Image-Guided Electrical Impedance Tomography for Medical Imaging. IEEE TRANSACTIONS ON MEDICAL IMAGING. Accepted.
[7] Wang, Y., and
J. Zhang, 2019, Joint refraction traveltime tomography and migration for multi-layer near-surface imaging: Geophysics. 84(6), U31-U43.
[8] Sun, M., H. Zhu,
J. Zhang, H. Fu, and X. Tian. 2019, Ground motion from Mw 1.5 to 3.9 aftershocks of the 2014 Mw 6.2 Jinggu earthquake at hypocenter distances < 45 km in Yunnan, China. Seismological Research Letters, 90(5), 1876-1888.
[9] Jiang, W.,
J. Zhang, and L. Bell, 2019, 3D seismic geometry quality control and corrections by applying machine learning: Geophysics. 84(6), P87-96.
[10] Zhang, X.,
J. Zhang, C. Yuan, S. Liu, Z. Chen, W. Li. 2018, Locating earthquakes with a network of seismic stations via a deep learning method. Preprint at https://arxiv.org/abs/1808.09603
[11] Gao, H., and
J. Zhang, 2018, Simultaneous Denoising and interpolation of seismic data via deep learning method: Earthquake Research in China. 33 (1), 37-51.
[12] Yuan, C., and
J. Zhang, 2018, A feasibility study of imaging hydraulic fractures with anisotropic reverse time migration: Journal of Applied Geophysics. Vol 155, pp. 199-207.
[13] Sun, M., M. D. Sacchi, and
J. Zhang, 2018, Highly efficient first-arrival traveltime tomography by stochastic optimization: Geophysics. Vol. 83, No. 4, pp. R283-R296.
[14] Wang, Y. and
J. Zhang., 2018, 2D elastic waveform inversion for velocity and Q factor in the near surface. Acta Seismologica Sinica. 40(5), 595-608.
[15] Yuan, C., X. Jia, S. Liu, and
J. Zhang, 2018, Microseismic reverse time migration with a multi-cross-correlation staining algorithm for fracture imaging: Journal of Applied Geophysics, 149, 95-104.
[16] Li, Z. and
J. Zhang, 2018, Applying Joint Traveltime and Waveform Inversion to Image the Sichuan Basin, China: Near Surface Geophysics, 16(1), 1-9.
[17] Jiang, W., and
J. Zhang, 2018, 3D first-arrival traveltime tomography with modified total-variation regularization: Journal of Geophysics and Engineering, 15, 1, 207–223.
[18] Ogunbo, J. N., G. Marquis,
J. Zhang, and W. Wang, 2018, Joint inversion of seismic traveltime and frequency-domain airborne electromagnetic data for hydrocarbon exploration: Geophysics, 83, 2, 9-22.
[19] Jiang, W. and
J. Zhang, 2017, Imaging complex near-surface structures in Yumen oil field by joint seismic traveltime and waveform inversion: Geophysical Prospecting for Petroleum, 56, 1, 57-68.
[20] Liu, Z and
J. Zhang, 2017 Joint traveltime and waveform envelope inversion for near surface imaging: Pure and Applied Geophysics, 174, 3, 1269 1289.
[21] Zhang, X. and
J. Zhang, 2017, Model regularization for seismic traveltime tomography with an edge-preserving smoothing operator: Journal of Applied Geophysics, 138, 143-153.
[22] Gao, H. and
J. Zhang, 2017, 3D seismic residual statics solutions derived from refraction interferometry: Geophysical Prospecting, 65, 6, 1527-1540.
[23] Feng, H., W. Zhang,
J. Zhang, and X. Chen, 2017, Importance of double-pole CFS-PML for broadband seismic wave simulation and optimal parameters selection: Geophysical Journal International, 209, 2, 1148-1167.
[24] Liu, Z. and
J. Zhang, 2017, Joint traveltime, waveform and waveform envelope inversion for near-surface imaging: Geophysics, 82, 4, 235-244.
[25] Han, S., W. Zhang, and
J. Zhang, 2017, Calculating qP-wave traveltimes in 2-D TTI media by high-order fast sweeping methods with a numerical quartic equation solver: Geophysical Journal International, 210, 3, 1560–1569.
[26] Sun, M.,
J. Zhang, and W. Zhang, 2017, Alternating the first-arrival traveltime tomography and waveform inversion for near-surface imaging: Geophysics, 82, 4, 245-257.
[27] Ogunbo, J.N. and
J. Zhang, 2017, Transient electromagnetic search engine for real-time imaging: Geophysics, 82, 5, 277-285.
[28] Wang, Y. and
J. Zhang, 2017, Pseudo 2D elastic waveform inversion for attenuation in the near surface: Journal of Applied Geophysics, 143, 129-140.
[29] Tian, X., W. Zhang, and
J. Zhang, 2017, Cross double-difference inversion for simultaneous velocity model update and microseismic event location: Geophysical Prospecting, 65, 51, 259-273.
[30] Cai, J. and
J. Zhang, 2016, Full waveform modeling and inversion of physical model data: Journal of Applied Geophysics, 131, 145–153.
[31] Zhang, X. and
J. Zhang, 2016, Microseismic search engine for real-time estimation of source location and focal mechanism: Geophysics, 81, 5, 169-182.
[32] Zhang, C. and
J. Zhang, 2016, 2D seismic residual statics derived from refraction interferometry: Journal of Applied Geophysics, 130, 145–152.
[33] Sun, M. and
J. Zhang, 2016, Edge-preserving Traveltime Tomography with a Sparse Multiscale Imaging Constraint: Journal of Applied Geophysics, 131, 179–190.
[34] Zhou, L., W. Zhang, Y. Shen, X. Chen, and
J. Zhang, 2016, Location and moment tensor inversion of small earthquakes using 3D Green functions with realistic topography in Longmen Shan fault region of steep terrain: Earthquake Science, 29, 3, 139–151.
[35] Tian, X., W. Zhang, and
J. Zhang, 2016, Cross double-difference inversion for microseismic event location using data from a single monitoring well: Geophysics, 81, 5, 183-194.
[36] Zhou, H., W. Zhang, and
J. Zhang, 2016, Downhole microseismic monitoring for low signal-to-noise ratio events: Journal of Geophysics and Engineering, 13, 5, 805-816.
[37] Kuang, W., M. Zoback, and
J. Zhang, 2016, Estimating geomechanical parameters from microseismic plane focal mechanisms recorded during multistage hydraulic fracturing: Geophysics, 82, 1, 1-11.
[38] Jiang, W., and
J. Zhang, 2016, First-arrival traveltime tomography with modified total-variation regularization: Geophysical Prospecting, 65, 5, 1138–1154.
[39] Zhang, L., W. Zhang, and
J. Zhang, 2015, Anisotropic effects on the near surface seismic imaging: Near Surface Geophysics, 13, 5, 485-493.
[40]
J. Zhang, H. Zhang, E. Chen, Y. Zheng, W. Kuang, and X. Zhang, 2014, Real-time monitoring earthquake using a search engine method: Nature Communication, DOI: 10.1038/ncomms6664.
[41] Gao, Y., X. Chen, H. Hu, and
J. Zhang, 2013, Early electromagnetic waves from earthquake rupturing: I. Theoretical formulations: Geophysical Journal International, 192, 3, 1288-1307.
[42] Gao, Y., X. Chen, H. Hu, and
J. Zhang, 2013, Early electromagnetic waves from earthquake rupturing: II. Validation and numerical experiments: Geophysical Journal International, 192, 3, 1308-1323.
[43]
J. Zhang, and M. N. Toksoz, 1998. Nonlinear refraction traveltime tomography: Geophysics, 63, 5, 1726-1737.
[44]
J. Zhang, U. S. ten Brink and M. N. Toksoz, 1998. Nonlinear joint refraction and reflection traveltime tomography: J. Geophys. Res., 103, B12, 29, 743-757.
[45]
J. Zhang, and C. A. Langston, 1996, Array observation of SPL-wave propagation: Bull. Seism. Soc. Am., 86, 2, 47-54.
[46]
J. Zhang, and C. A. Langston, 1995, Dipping structure under Dourbes, Belgium, determined by receiver function modeling and inversion: Bull. Seism. Soc. Am., 85, 254-268.
[47]
J. Zhang, R. L. Mackie, and T. R. Madden, 1995, 3-D resistivity forward modeling and inversion using conjugate gradients: Geophysics, 60, 1313-1325.
[48]
J. Zhang, and C. A. Langston, 1995, Constraints on oceanic lithosphere structure from deep-focus regional seismic waveform modeling and inversion: J. Geophys. Res., 100, 22187-22196.
[49] Cooper, A. K., G. Cochrane,
J. Zhang, G. Brancolini, G. Pellis, and F. Egloff, 1995, The Antarctic crustal profile seismic project, Ross Sea, Antarctica: Antarctic Journal, 29, 5, 15-18.
- Published in Conference Proceedings (4+ pages, peer reviewed) (117)
[1] Wang, Y. and
J. Zhang, 2019, 3D refraction traveltime migration for near surface imaging: SEG Technical Program Expanded Abstracts 2019: pp. 2848-2852.
[2] Duan, X. and
J. Zhang, 2019, Multi-trace and multi-attribute analysis for first-break picking with the support vector machine: SEG Technical Program Expanded Abstracts 2019: pp. 2559-2563.
[3] Shen, Y. and
J. Zhang, 2019, Applying the refraction migration method to image a deep interface in Xinjiang, China: SEG Technical Program Expanded Abstracts 2019: pp. 4307-4311.
[4] Ma, Y. and
J. Zhang, 2019, Joint inversion for microseismic event locations and anisotropic parameters with the cross double-difference method in VTI media: SEG Technical Program Expanded Abstracts 2019: pp. 3101-3105.
[5] Xue, Z.,
J. Zhang, Y. Wang, Z. Li, 2019, The first-arrival traveltime tomography with joint minimum support and Tikhonov regularization: SEG Technical Program Expanded Abstracts 2019: pp. 2853-2857.
[6] Li, Z., X. Jia, and
J. Zhang, 2019, Deep learning guiding first-arrival traveltime tomography: SEG Technical Program Expanded Abstracts 2019: pp. 2513-2517.
[7] Sun, M., H. Zhu,
J. Zhang, H. Fu, X. Tian, 2019, Ground motion from small aftershocks of 2014 Mw 6.2 Jinggu earthquake at short hypocentral distances in Yunnan, China: SEG Technical Program Expanded Abstracts 2019: pp. 3131-3135.
[8] Sun, M.,
J. Zhang, Y. Wang, 2018, Recognizing shingling seismic data by unsupervised machine learning: SEG Technical Program Expanded Abstracts 2018: pp. 2561-2565.
[9] Zhang, X., C. Yuan,
J. Zhang, S. Liu, Z. Chen, and W. Li, 2018, Automatic microseismic detection and location via the deep convolutional neural network: SEG Technical Program Expanded Abstracts 2018: pp. 3057-3061.
[10] X. Duan,
J. Zhang, Z. Liu, S. Liu, Z. Chen, and W. Li, 2018, Integrating seismic first-break picking methods with a machine learning approach: SEG Technical Program Expanded Abstracts 2018: pp. 2186-2190.
[11] Shen, Y., M. Sun,
J. Zhang, S. Liu, Z. Chen, and W. Li, 2018. Seismic trace editing by applying machine learning. SEG Technical Program Expanded Abstracts 2018: pp. 2256-2260.
[12] Li, Z.,
J. Zhang, Z. Liu, S. Liu, Z. Chen, and W Li, 2018, Characterizing the near surface velocity structures by applying machine learning: SEG Technical Program Expanded Abstracts 2018: pp. 2712-2716.
[13] Liu, Z.,
J. Zhang, S. Liu, Z. Chen, and W. Li, 2018, Detection of the near surface velocity reveal with the convolutional neural network: SEG Technical Program Expanded Abstracts 2018: pp. 2251-2255.
[14] Wang, Y.,
J. Zhang, 2018, Joint refraction traveltime tomography and migration for multi-layer near surface imaging: SEG Technical Program Expanded Abstracts 2018: pp. 2717-2721.
[15] Bi, Z.,
J. Zhang, and M. Sun, 2018, The first-arrival traveltime tomography with simultaneous sources: SEG Technical Program Expanded Abstracts 2018: pp. 2727-2731.
[16] Xue, Z.,
J. Zhang, M. Sun, Y. Wang, 2018, Long-wavelength statics solutions for the near surface with velocity reversal: SEG Technical Program Expanded Abstracts 2018: pp. 2722-2726.
[17] Kuang, W., and
J. Zhang, 2018, Estimate temporal pore pressure distribution from induced seismicity in Oklahoma: SEG Technical Program Expanded Abstracts 2018: pp. 3032-3036.
[18] Tian, X.,
J. Zhang, and W. Zhang, 2018, An effective workflow for updating 1D velocity model and event location in microseismic monitoring. 2018 CPS/SEG International Conference, Beijing, China.
[19] Yuan, C., and
J. Zhang, 2018, Vertial slowness constrained joint VTI velocity model and event locations inversion: CPS/SEG International Conference 2018, Beijing China.
[20]
J. Zhang, Z. Liu, M. Sun, W. Jiang, Z. Li, J. Chen, W. Zhang, W. Wang, 2017, Near surface imaging between alternating and joint traveltime, waveform, and envelope inversions. 2017 2nd SEG/DGS Near Surface Workshop, Manama, Bahrain.
[21] Zhang, X.,
J. Zhang, and W. Zhang, 2017, Automatic microseismic event detection and location with a RMS velocity and surface data: SEG Technical Program Expanded Abstracts 2017, 2802-2807.
[22] Zhu, H., and
J. Zhang, 2017, Monitoring the crustal temporal variations in Yunnan, China: SEG Technical Program Expanded Abstracts 2017, 2997-3001.
[23] Wang, Y., and
J. Zhang, 2017, Applying refraction traveltime migration to image bedrock with high resolution: SEG Technical Program Expanded Abstracts 2017, 5443-5447.
[24] Yuan, C., X. Jia, S. Liu, and
J. Zhang, 2017, Multiple crosscorrelation staining reverse time migration for high-resolution fracture imaging: SEG Technical Program Expanded Abstracts 2017, 2903-2907.
[25] Jiang, W., Z. Liu, and
J. Zhang, 2017, Diffraction imaging using reverse time migration with poynting vectors: SEG Technical Program Expanded Abstracts 2017, 1028-1032.
[26] Sun, M.,
J. Zhang, and M. Sacchi, 2017, Highly efficient 3D first-arrival traveltime tomography by stochastic approximation: SEG Technical Program Expanded Abstracts 2017, 2676-2680.
[27] Sun, M.,
J. Zhang, and W. Zhang, 2017, Alternating traveltime tomography and waveform inversion for near-surface imaging: SEG Technical Program Expanded Abstracts 2017, 2596-2600.
[28] Duan, X., and
J. Zhang, 2017, Residual statics solution by L1 regularized inversion in common offset domain: SEG Technical Program Expanded Abstracts 2017, 2696-2700.
[29] Li, Z., and
J. Zhang, 2017, First-arrival traveltime tomography with long- and short-wavelength statics constraints, SEG Technical Program Expanded Abstracts 2017, 2681-2685.
[30] Shen, Y., and
J. Zhang, 2017, Interferometric imaging with FreeCableTM geometry: SEG Technical Program Expanded Abstracts 2017, 5963-5967.
[31] Tian, X., W. Zhang, and
J. Zhang, 2017, Cross double-difference inversion method for microseismic location and velocity model update: 2017 SEG Workshop: Microseismic Technologies and Applications, Hefei, China, 4-6 June 2017, 94-97.
[32] Sun, M.,
J. Zhang, and W. Zhang, 2017, Alternating traveltime tomography and waveform inversion for near-surface imaging: SEG 2017 Workshop: Full-waveform Inversion and Beyond, 72-76.
[33] Li, Z., and
J. Zhang, 2017, Applying joint traveltime and waveform inversion to image the Sichuan Basin, China: SEG Workshop: Full-waveform Inversion and Beyond, 64-67.
[34] Huo, Y.,
J. Zhang, and W. Zhang, 2017, Location accuracy improvement by using both perforation and microseismic events in sensor orientation: SEG Workshop: Microseismic Technologies and Applications, 111-114.
[35] Yan, S., X. Zhang, W. Zhang, and
J. Zhang, 2017, Comparison of stacking methods with a depth model or with a RMS velocity for automated microseismic event location from surface monitoring: SEG Workshop: Microseismic Technologies and Applications, 205-208.
[36] Yuan, C.,
J. Zhang, and W. Zhang, 2017, Automatic microseismic stacking location with a multi-cross-correlation condition: SEG Workshop: Microseismic Technologies and Applications, 120-123.
[37] Zhang, X.,
J. Zhang, F. Chu, and Y. Zhang, 2017, The application of microseismic search engine for real-time estimation of source location and focal mechanism: SEG Workshop: Microseismic Technologies and Applications, 201-204.
[38] Z. Liu and
J. Zhang, 2017, Utilizing Poynting vectors to emphasis low-wavenumber information for FWI: SEG Workshop: Full-waveform Inversion and Beyond, 51-54.
[39] Jiang, W.,
J. Zhang, W. Wang, D. Zhou, and A. R. Ghazali, 2017, 3D joint seismic waveform and airborne gravity gradiometry inversion with cross-gradients constraints: SEG 2017 Workshop: Full-waveform Inversion and Beyond, 133-135.
[40] Sun, M.,
J. Zhang, and W. Zhang, 2017, Alternating traveltime tomography and waveform inversion for near-surface imaging: SEG 2017 Workshop: Full-waveform Inversion and Beyond, Beijing, China, 20-22 November 2017, 72-76.
[41] Li, Z., and
J. Zhang, 2016, Applying joint traveltime and waveform inversion to image the Sichuan Basin, China: SEG Technical Program Expanded Abstracts 2016, 2434-2438.
[42] Liu Z., and
J. Zhang, 2016, Joint traveltime, waveform and waveform envelope inversion for the near-surface imaging: SEG Technical Program Expanded Abstracts 2016, 2393-2397.
[43] Sun, M.,
J. Zhang, and W. Zhang, 2016, Improving efficiency of traveltime tomography by stochastic optimization, SEG Technical Program Expanded Abstracts 2016, 2377-2381.
[44] Huo, Y., W. Zhang, and
J. Zhang, 2016, Improve sensor orientation using both drop-ball and microseismic events, SEG Technical Program Expanded Abstracts 2016, 2642-2646.
[45] Yuan C., and
J. Zhang, 2016, 3D microseismic imaging for identifying shale sweet spot: SEG Technical Program Expanded Abstracts 2016, 2689-2693.
[46] Tian, X., W. Zhang, and
J. Zhang, 2016, Joint Inversion of Perforations and Microseismic Events: 78th EAGE Conference and Exhibition 2016, Extended Abstracts, DOI: 10.3997/2214-4609.201601482.
[47] Jiang, W., and
J. Zhang, 2016, First-arrival traveltime tomography with modified total-variation regularization: 78th EAGE Conference and Exhibition 2016, Extended Abstracts, DOI: 10.3997/2214-4609.201600736.
[48] Zhu, H., X. Tian, and
J. Zhang, 2016, Real-time Earthquake Search Engine with Historic Data for Database: 78th EAGE Conference and Exhibition 2016, Extended Abstracts, DOI: 10.3997/2214-4609.201601611.
[49] Gao, H., and
J. Zhang, 2015, 3D seismic residual statics solutions by applying refraction interferometry: SEG Technical Program Expanded Abstracts 2015, 5097-5101.
[50] Han, S., W. Zhang, and
J. Zhang, 2015, Joint microseismic quasi-P and SH traveltime inversion for updating VTI parameters: SEG Technical Program Expanded Abstracts 2015, 442-446.
[51] Jiang, W., and
J. Zhang, 2015, Imaging complex near-surface land area with joint traveltime and waveform inversion: SEG Technical Program Expanded Abstracts 2015, 1441-1445.
[52] Tian, X., W. Zhang, and
J. Zhang, 2015, Cross double-difference inversion method for microseismic location: SEG Technical Program Expanded Abstracts 2015, 2640-2644.
[53] Zhang, X.,
J. Zhang, and M. D. Zoback, 2015, Fast elastic full waveform inversion for microseismic location and focal mechanism: SEG Technical Program Expanded Abstracts 2015, 2517-2521.
[54] Liu, Z., and
J. Zhang, 2015, Joint traveltime and waveform envelope inversion for near-surface imaging: SEG Technical Program Expanded Abstracts 2015, 1154-1158.
[55]
Zhang, J., 2015, Explicit statics optimization in the first-arrival traveltime tomography: 77th EAGE Conference and Exhibition 2015, Extended Abstracts, DOI: 10.3997/2214-4609.201412991.
[56] Han, S., W. Zhang, and
J. Zhang, 2015, A high-order fast sweeping method for calculating quasi-P traveltimes in 2D TTI media: 77th EAGE Conference and Exhibition 2015, Extended Abstracts, DOI: 10.3997/2214-4609.201413001.
[57] Zhou, H., and
J. Zhang, 2015, Fitting the shapes of traveltime curves in downhole microseismic monitoring: 77th EAGE Conference and Exhibition 2015, Extended Abstracts, DOI: 10.3997/2214-4609.201413017.
[58]
Zhang, J. and X. Zhang, 2015, Full elastic waveform search engine for near surface imaging: Near-Surface Asia Pacific Conference 2015, 92-95.
[59] Ogunbo, J. N., and
J. Zhang, 2015, Joint seismic traveltime and TEM inversion for near surface imaging: International Workshop and Gravity, Electrical & Magnetic Methods and their Applications 2015,. 509-512.
[60] Wang, Y., and
J. Zhang, 2015, Pseudo 2D elastic waveform inversion for velocity and Q factor in the near surface: SEG Workshop: Depth Model Building: Full-waveform Inversion 2015, 84-89.
[61]
Zhang, J., X. Zhang, and W. Zhang, 2015, Microseismic search engine for real-time event monitoring: Near-Surface Asia Pacific Conference2015, 237-240.
[62] Cai, J., and
J. Zhang, 2015, Acoustic full waveform inversion with physical model data: SEG Workshop: Depth Model Building: Full-waveform Inversion 2015, 146-149.
[63] Jiang, W., and
J. Zhang, 2015, Imaging complex land structures using joint traveltime and waveform inversion: SEG Workshop: Depth Model Building: Full-waveform Inversion 2015, 142-145.
[64] Liu, Z., and
J. Zhang, 2015, Joint traveltime and waveform envelope inversion: SEG Workshop: Depth Model Building: Full-waveform Inversion 2015, 44-48.
[65] Fan, H., L. Bell, Y. Deng, and
J. Zhang, 2015, Imaging shallow complex structures in North Sea with joint traveltime and waveform inversion: SEG Workshop: Depth Model Building: Full-waveform Inversion2015, 40-43.
[66] Zhou, D., W. Wang,
J. Zhang, and D. R. H. O'Connell, 2015, 3D joint inversion of seismic traveltime and gravity data: A case study: International Workshop and Gravity, Electrical & Magnetic Methods and their Applications, Chengdu, China, 19-22 April 2015, 386-389.
[67] Ogunbo, J. N., and
J. Zhang, 2015, Joint seismic traveltime and TEM inversion for near surface imaging: International Workshop and Gravity, Electrical & Magnetic Methods and their Applications, Chengdu, China, 19-22 April 2015, 509-512.
[68]
Zhang, J., and J. Chen, 2014, Joint seismic traveltime and waveform inversion for near surface imaging: SEG Technical Program Expanded Abstracts 2014, 934-937.
[69] Liu, Z., and
J. Zhang, 2014, Pseudo 2D elastic full waveform inversion for near surface imaging: SEG Technical Program Expanded Abstracts 2014, 1017-1021.
[70] Zhang, C.,
J. Zhang, and Z. Sun, 2014, Refraction interferometry for residual statics solutions: SEG Technical Program Expanded Abstracts 2014, 2045-2049.
[71] Zhu, H., and
J. Zhang, 2014, The PageRank method for automatic detection of microseismic events: SEG Technical Program Expanded Abstracts 2014, 2163-2167.
[72] Cai, J., and
J. Zhang, 2014, Full waveform inversion of physical model data: SEG Technical Program Expanded Abstracts 2014, 997-1001.
[73] Ogunbo, J. N., and
J. Zhang, 2014, Joint seismic traveltime and TEM inversion for near surface imaging: SEG Technical Program Expanded Abstracts 2014, 2104-2108.
[74] Xian, X.,
J. Zhang, and W. Zhang, 2014, Double difference method for locating microseismic events from a single well: SEG Technical Program Expanded Abstracts 2014, 2193-2197.
[75] Wang, Y., and
J. Zhang, 2014, Pseudo 2D elastic waveform inversion for Q factor in the near surface: SEG Technical Program Expanded Abstracts 2014, 2019-2023.
[76] Zhang, X., W. Zhang, and
J. Zhang, 2014, Elastic full waveform inversion of microseismic data for location and source mechanism: SEG Technical Program Expanded Abstracts 2014, 2256-2260.
[77] Zhou, D., W. Wang,
J. Zhang, and D. O'Connell, 2014, 3D joint inversion of seismic traveltime and gravity data: A case study: SEG Expended Abstracts 33, 3148-3152.
[78]
Zhang, J., X. Zhang, and W. Zhang, 2013, Microseismic search engine: SEG Technical Program Expanded Abstracts 2013, 2140-2144.
[79] Zhang, W., and
J. Zhang, 2013, Microseismic migration by semblance-weighted stacking and interferometry: SEG Technical Program Expanded Abstracts 2013, 2045-2049.
[80] Kuang, W., W. Zhang, and
J. Zhang, 2013, Locating microseismic events with S-wave data only: SEG Technical Program Expanded Abstracts 2013, 2243-2247.
[81] He, L., W. Zhang, and
J. Zhang, 2013, 3D wave-ray traveltime tomography for near surface imaging: SEG Technical Program Expanded Abstracts 2013, 1749-1753.
[82] Liu, Z., and
J. Zhang, 2013, Elastic full waveform inversion for near surface imaging: SEG Technical Program Expanded Abstracts 2013, 1904-1908.
[83] Zhang, L.,
J. Zhang, and W. Zhang, 2013, 3D VTI traveltime tomography for near surface imaging: SEG Technical Program Expanded Abstracts 2013, 1754-1759.
[84] Ogunbo, J. N., and
J. Zhang, 2013, TEM search engine for fast near surface imaging. SEG Technical Program Expanded Abstracts 2013, 1878-1882.
[85] Sun, M., and
J. Zhang, 2013, Understanding of the first arrivals in the shape of a Christmas tree: SEG Technical Program Expanded Abstracts 2013, 1843-1846.
[86] Wang, Y., and
J. Zhang, 2013, Elastic early arrival waveform inversion for Q factor in the near surface: SEG Technical Program Expanded Abstracts 2013, 1733-1737.
[87] Zhang, X., and
J. Zhang, 2012, Edge preserving regularization for seismic traveltime tomography: SEG Technical Program Expanded Abstracts 2012, 112-115.
[88] Zhang, L.,
J. Zhang, and W. Zhang, 2012, Anisotropic effects on the near-surface seismic imaging: SEG Technical Program Expanded Abstracts 2012, 1-5.
[89] Zhang, W., and
J. Zhang, 2011, Full waveform tomography with consideration for large topography variations: SEG Technical Program Expanded Abstracts 2011, 2539-2542.
[90] He, L.,
J. Zhang, and W. Zhang, 2011, Tradeoffs in the near-surface seismic imaging solutions, SEG Technical Program Expanded Abstracts 2011, 4015-4019.
[91] Kuang, W., Zhang, L., and
J. Zhang, 2011, Validity of acoustic early-arrival waveform tomography for near-surface imaging, SEG Technical Program Expanded Abstracts 2011, 1450-1453.
[92]
Zhang, J., 2006, Refraction migration: imaging multiple refractors automatically, Expanded Abstract, SEG 71st Annual Meeting in New Orleans, Louisiana, p2426.
[93] Nicanoff, L., Y. Perez, O. Yilmaz, N. Dai, and
J. Zhang, 2006, A case study of imaging complex structures in the Andean Thrust Belt of Bolivia, Expanded Abstract: SEG 70th Annual Meeting in Houston, Texas, 500.
[94] Yilmaz, O.,
J. Zhang, A. Pince, A. Aytunur, A. Elibuyuk, S. Uygun, T. Onaran, and A. F. Oner, 2005, A large-offset 2-D seismic survey for imaging imbricatestructures in thrust belts, Expanded Abstract: SEG 70th Annual Meeting in Houston, Texas, 404.
[95] Yilmaz, O.,
J. Zhang, and S. Yan, 2005, Acquisition and processing of large-offset seismic data: a case study from Northwest China, Expanded Abstract: SEG 70th Annual Meeting in Houston, Texas, 2581-2584.
[96]
Zhang, J., and O. Yilmaz, 2005, Near-surface corrections for complex structure imaging, Expanded Abstract: SEG 70th Annual Meeting in Houston, Texas, 2566-2568.
[97]
Zhang, J., Z.Sun, and C. Lippus, 2003, On-site instant automated refraction tomography, Proceedings, SAGEEP: Environmental and Engineering Geophysical Society, 1228-1231.
[98]
Zhang, J., and H. S. Kim, 2003, 3D refraction tomography for near-surface geological studies, Proceedings, SAGEEP: Environmental and Engineering Geophysical Society, 1285-1288.
[99] Cheng, A., and
Zhang, J., 2001, Imaging complex structures with crosswell seismology, Expanded Abstract: SEG 70th Annual Meeting in Houston, Texas, 483-486.
[100] Zhang, Z., and
J. Zhang, 2001, A comparative study of 2D and 3D crosswell tomography, ASEG Extended Abstracts 2001: 15th Geophysical Conference, 1-4.
[101]
Zhang, J., 1998, Rapid 3D reflection raytracing for interface models, Expanded Abstract: SEG 63rd Annual Meeting in Dallas, Texas Houston, Texas, 1897-1899.
[102]
Zhang, J., and E. Lavely, 1998, Rapid 3D refraction and reflection raytracing: Proceedings, SAGEEP, Chicago, Illinois, Environmental and Engineering Geophysical Society, 250-255.
[103]
Zhang, J., and E. Lavely, 1998, Optimizing 3D refraction and reflection survey design: Proceedings, SAGEEP, Chicago, Illinois, Environmental and Engineering Geophysical Society, 125-130.
[104]
Zhang, J., and M. N. Toksoz, 1997, Joint refraction traveltime migration and tomography: Proceedings, SAGEEP, Reno, Nevada, Environmental and Engineering geophysical Society, 901-910.
[105]
Zhang, J., and B. K. Macy, 1997, Refraction traveltime tomography of Bala Kimberlite in Riley County, Kansas: Proceedings, SAGEEP, Reno, Nevada, Environmental and Engineering Geophysical Society, 755-760.
[106]
Zhang, J., 1997, Regularizing data in 3-D d.c. resistivity tomography: Proceedings, SAGEEP 1997, Reno, Nevada, Environmental and Engineering Geophysical Society, 911-915.
[107]
Zhang, J., and D. F. Morgan, 1997, Joint seismic and electrical tomography: Proceedings, SAGEEP 1997, Reno, Nevada, Environmental and Engineering Geophysical Society, 391-396.
[108]
Zhang, J., and D. F. Morgan, 1997, Detecting underground caves using joint seismic and electrical imaging method, Expanded Abstract: SEG 67th Annual Meeting in Dallas, Texas, 1905-1908.
[109] Turpening, R.,
J. Zhang, C. Chauvelier, F. D. Morgan, M. N. Toks?z, J. Queen, and D. Cox, 1997, P- and S-wave tomographic images of an oil reservoir at MIT's Michigan Test Site, Expanded Abstract: SEG 67th Annual Meeting in Dallas, Texas, 222-225.
[110]
Zhang, J., D. L. Kutrubes, and M. N. Toksoz, 1996, High-resolution shallow seismic structure imaging using grid-based nonlinear refraction traveltime tomography: Proceedings, SAGEEP, Keystone, Colorado, Environmental and Engineering Geophysical Society, 209-214.
[111]
Zhang, J., W. Rodi, R. L. Mackie, and W. Shi, 1996, Regularization in 3-D dc resistivity tomography: Proceedings, SAGEEP, Keystone, Colorado, Environmental and Engineering Geophysical Society, 687-692.
[112] D. L. Kutrubes,
J. Zhang, and J. Hager, 1996, Conventional processing techniques and nonlinear refraction traveltime tomography for Imaging Bedrock at Eastern Massachusetts coastal site: Proceedings, SAGEEP, Keystone, Colorado, Environmental and Engineering Geophysical Society, 215-220.
[113]
Zhang, J. and M. N. Toksoz, 1996, Nonlinear refraction traveltime tomography: SEG Technical Program Expanded Abstracts, 2011-2014.
[114] Shi, W., W. Rodi, R. L. Mackie, and
J. Zhang, 1996, 3-D d.c. electrical resistivity inversion with application to a contamination site in the Aberjona Watershed: Proceedings. SAGEEP, Keystone, Colorado, Environmental and Engineering Geophysical Society, 1257-1266.
[115] Vedova, B. D., G. Pellis, H. Trey,
J. Zhang, Cooper,A. K., Makris, J., ACRUP working group, 1995, Crustal structure of the Transantarctic Mountains, Western Ross Sea: VII ISAES Proceedings, Siena, Italy, 110-126.
[116]
Zhang, J., R. L. Mackie, and T. R. Madden, 1994. 3?\D resistivity forward modeling and inversion using conjugate gradients: SEG Technical Program Expanded Abstracts 1994, 377-380.
[117] Kutrubes, D. L.,
J. Zhang, and R. L. Mackie, 1994, Predictive deconvolution of GPR data using ProMAX: IEEE Dual Use Technologies and Applications Conference Proceedings, SUNY Institute of Technology, Utica/Rome, New York, 439-446.