195 Zhang, J. 2022. President's Page: Looking
into the world of medical imaging from the perspective of a geophysicist. The
Leading Edge. 41 (6), 372-373.
194 Li, Quanli, W. Cao, W. Zhang, and J. Zhang.
2022. Accelerating 2D and 3D frequency-domain seismic wave modeling through
interpolating frequency-domain wavefields by deep learning. Geophysics.
193 Duan, X. and J. Zhang. 2022, Reflection
residual statics estimated using a high-resolution neural network: Geophysics.
87(4). U121-U134.
192 Zhang, Q., W. Zhang, X. Wu, J. Zhang, W.
Kuang, and X. Si. 2022. Deep Learning for Efficient Microseismic Location using
Source Migration‐based Imaging. Journal of Geophysical
Research: Solid Earth, e2021JB022649.
191 Zhu, H., M. Sun, J. Zhang. 2022. Seismic
Velocity Variations over Four Years (2013–2016) along the Longmenshan Faults in
Sichuan, China. Bulletin of the Seismological Society of America 2022; doi:
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190 Su, L., H. Wang, and J. Zhang. 2022.
Amplitude enhancement of far-offset refractions via machine learning. SEG
Technical Program Expanded Abstracts : 2100-2104.
189 Wang, H., and J. Zhang. 2022. 3D
surface-consistent residual statics estimation by deep learning. SEG Technical
Program Expanded Abstracts : 2095-2099.
188 Quimby, S., Y. Zhao, J. Zhang. 2022.
Earthquake detection and focal mechanism calculation using artificial
intelligence. SEG Global Meeting Abstracts : 3028-3038.
187 Kuang, W., C. Yuan, and J. Zhang. 2021,
Real-time determination of earthquake focal mechanism via deep learning: Nature
Communications. 12, 1432. https://doi.org/10.1038/s41467-021-21670-x
186 Bahmani, B., H. Gong, B. T. Luk, K. J.
Haushalter, E. DeTeresa, M. Previti, J. Zhou, W. Gao, J. D. Bui, L. Zhang, R.
Fang, and J. Zhang. 2021, Intratumoral immunotherapy using platelet cloaked
nanoparticles enhances antitumor immunity in solid tumors. Nature
Communications. 12(1), 1-12. https://doi.org/10.1038/s41467-021-22311-z
185 Huo, Y. H., W. Zhang, J. Zhang. 2021.
Centroid moment tensor of the 2019 Mw 5.7 Changning earthquake refined using 3D
Green’s functions considering surface topography. Front. Earth Sci., 9, 642721.
doi: 10.3389/feart.2021.642721
184 Huo, Y., W. Zhang, J. Zhang, and H. Yang.
2021. Using microseismic events to improve the accuracy of sensor orientation
for downhole microseismic monitoring. Geophysical Prospecting. 69(6),
1167-1180. https://doi.org/10.1111/1365-2478.13099
183 Zhang J., W. Kuang, X. Zhang, C. Mo, D.
Zhang. 2021. Global review of induced earthquakes in oil and gas production
fields. Reviews of Geophysics and Planetary Physics, 52(3): 239-265.
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182 Ma, Y. and J. Zhang. 2021. Velocity model
building from one-shot VSP data via a convolutional neural network. SEG
Technical Program Expanded Abstracts 2021. September 2021, 3360-3364.
https://doi.org/10.1190/segam2021-3581912.1
181 Shen, Y., K. Wang, and J. Zhang. 2021.
Improving resolution in the first-arrival traveltime tomography. SEG Technical
Program Expanded Abstracts 2021. September 2021, 1922-1926.
https://doi.org/10.1190/segam2021-3583896.1
180 Duan, X. and J. Zhang. 2021. Derive residual
statics solution using a high-resolution neural network. SEG Technical Program
Expanded Abstracts 2021. September 2021, 1485-1489.
https://doi.org/10.1190/segam2021-3583898.1
179 Wang, H. and J. Zhang. 2021. Seismic noise
attenuation by applying a deep learning method without noise-free labels. SEG
Technical Program Expanded Abstracts 2021. September 2021, 2909-2913.
https://doi.org/10.1190/segam2021-3583901.1
178 Ding, X., Jie Zhang, Ji Zhang. 2021. 3D
survey geometry corrections and surface velocity mapping via deep learning. SEG
Technical Program Expanded Abstracts 2021. September 2021, 1831-1835. https://doi.org/10.1190/segam2021-3584157.1
177 Zhang, J., H. Zhu, S. Yu, and J. Ma. 2020,
Constructing the Seismograms of Future Earthquakes in Yunnan, China, Using
Compressed Sensing: Seismological Research Letters, 2 (1): 261–274. doi:
https://doi.org/10.1785/0220190382
176 Shen, Y., and J. Zhang. 2020, Refraction
wavefield migration: Geophysics, 85(6), Q27-Q37.
175 Zhu, H., M. Sun, H. Fu, N. Du, J. Zhang.
2020, Training a seismogram discriminator based on ResNet: IEEE Transactions on
Geoscience and Remote Sensing, 59(8), 7076-7085.
https://doi.org/10.1109/TGRS.2020.3030324
174 Li, Z., J. Zhang, D. Liu, and J. Du. 2020,
CT Image-Guided Electrical Impedance Tomography for Medical Imaging. IEEE
TRANSACTIONS ON MEDICAL IMAGING. Vol 39, No. 6, 1822-1832
173 Duan, X. and J. Zhang. 2020. Multi-trace
first break picking using an integrated seismic and machine learning method:
Geophysics, 85(4), WA269-WA277
172 Sun, M., and J. Zhang. 2020, The
near-surface velocity reversal and its detection via unsupervised machine learning:
Geophysics, 85(3), U55-U63
171 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, 85(3), KS63-KS73
170 Tian, X., W. Zhang, X. Zhang, J. Zhang, Q.
Zhang, X. Wang, and Q. Guo. 2020, Comparison of single-trace and multiple-trace
polarity determination for surface microseismic data with deep learning.
Seismological Research Letters, 91(3):1794-1803. https://doi.org/10.1785/0220190353
169 Kuang, W., and J. Zhang. 2020, Direct stress
field estimation through waveform matching. Geophysical Journal International,
221,853-856.
https://doi.org/10.1093/gji/ggaa034
168 Zhang, X., J. Zhang, C. Yuan, S. Liu, Z.
Chen, W. Li. 2020, Locating induced earthquakes with a network of seismic
stations in Oklahoma via a deep learning method. Scientific Reports, 10, 1941.
https://doi.org/10.1038/s41598-020-58908-5
167 Jiang, W., C. A. Zelt, and J. Zhang. 2020,
Detecting an underground tunnel by applying joint traveltime and waveform
inversion. Journal of Applied Geophysics, 174, 103957.
166 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
165 Ding, X. and J. Zhang, 2020, Rapid
high-resolution 3D seismic surface traveltime tomography: SEG Technical Program
Expanded Abstracts 2020. September 2020, 1890-1894.
164 Zhang, J. 2020, Applying a joint geophysical
inversion approach for medical imaging: SEG Technical Program Expanded
Abstracts 2020. September 2020, 3507-3511.
163 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
162 Wang, Y., and J. Zhang, 2019, Joint
refraction traveltime tomography and migration for multi-layer near-surface
imaging: Geophysics. 84(6), U31-U43
161 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
160 Jiang, W., J. Zhang, and L. Bell, 2019, 3D
seismic geometry quality control and corrections by applying machine learning:
Geophysics. 84(6), P87-96
159 Wang, Y. and J. Zhang, 2019, 3D refraction
traveltime migration for near surface imaging: SEG Technical Program Expanded
Abstracts 2019: pp. 2848-2852
158 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
157 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
156 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
155 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
154 Li, Z., X. Jia, and J. Zhang, 2019, Deep
learning guiding first-arrival traveltime tomography: SEG Technical Program
Expanded Abstracts 2019: pp. 2513-2517
153 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
152 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
151 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.
150 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.
149 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.
148 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.
147 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.
146 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.
145 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.
144 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.
143 Sun, M., J. Zhang, Y. Wang, 2018,
Recognizing shingling seismic data by unsupervised machine learning: SEG
Technical Program Expanded Abstracts 2018: pp. 2561-2565.
142 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.
141 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.
140 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.
139 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.
138 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.
137 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.
136 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.
135 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.
134 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.
133 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.
132 Yuan, C., and J. Zhang, 2018, Vertial
slowness constrained joint VTI velocity model and event locations inversion:
CPS/SEG International Conference 2018, Beijing China.
131 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.
130 Liu, Z and J. Zhang, 2017 Joint traveltime
and waveform envelope inversion for near surface imaging: Pure and Applied
Geophysics, 174, 3, 1269 1289.
129 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.
128 Gao, H. and J. Zhang, 2017, 3D seismic
residual statics solutions derived from refraction interferometry: Geophysical
Prospecting, 65, 6, 1527-1540.
127 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.
126 Liu, Z. and J. Zhang, 2017, Joint
traveltime, waveform and waveform envelope inversion for near-surface imaging:
Geophysics, 82, 4, 235-244.
125 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.
124 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.
123 Ogunbo, J.N. and J. Zhang, 2017, Transient
electromagnetic search engine for real-time imaging: Geophysics, 82, 5,
277-285.
122 Wang, Y. and J. Zhang, 2017, Pseudo 2D
elastic waveform inversion for attenuation in the near surface: Journal of
Applied Geophysics, 143, 129-140.
121 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.
120 Zhang, J., 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.
119 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.
118 Zhu, H., and J. Zhang, 2017, Monitoring the
crustal temporal variations in Yunnan, China: SEG Technical Program Expanded
Abstracts 2017, 2997-3001.
117 Wang, Y., and J. Zhang, 2017, Applying
refraction traveltime migration to image bedrock with high resolution: SEG
Technical Program Expanded Abstracts 2017, 5443-5447.
116 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.
115 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.
114 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.
113 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.
112 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.
111 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.
110 Shen, Y., and J. Zhang, 2017,
Interferometric imaging with FreeCableTM geometry: SEG Technical Program
Expanded Abstracts 2017, 5963-5967.
109 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.
108 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.
107 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.
106 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.
105 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.
104 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.
103 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.
102 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.
101 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.
100 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.
99 Cai, J. and J. Zhang, 2016, Full waveform
modeling and inversion of physical model data: Journal of Applied Geophysics,
131, 145–153.
98 Zhang, X. and J. Zhang, 2016, Microseismic
search engine for real-time estimation of source location and focal mechanism:
Geophysics, 81, 5, 169-182.
97 Zhang, C. and J. Zhang, 2016, 2D seismic
residual statics derived from refraction interferometry: Journal of Applied
Geophysics, 130, 145–152.
96 Sun, M. and J. Zhang, 2016,
Edge-preserving Traveltime Tomography with a Sparse Multiscale Imaging
Constraint: Journal of Applied Geophysics, 131, 179–190.
95 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.
94 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.
93 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.
92 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.
91 Jiang, W., and J. Zhang, 2016,
First-arrival traveltime tomography with modified total-variation
regularization: Geophysical Prospecting, 65, 5, 1138–1154.
90 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.
89 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.
88 Sun, M., J. Zhang, and W. Zhang, 2016,
Improving efficiency of traveltime tomography by stochastic optimization, SEG
Technical Program Expanded Abstracts 2016, 2377-2381.
87 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.
86 Yuan C., and J. Zhang, 2016, 3D
microseismic imaging for identifying shale sweet spot: SEG Technical Program
Expanded Abstracts 2016, 2689-2693.
85 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.
84 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.
83 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.
82 Zhang, L., W. Zhang, and J. Zhang, 2015,
Anisotropic effects on the near surface seismic imaging: Near Surface
Geophysics, 13, 5, 485-493.
81 Gao, H., and J. Zhang, 2015, 3D seismic
residual statics solutions by applying refraction interferometry: SEG Technical
Program Expanded Abstracts 2015, 5097-5101.
80 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.
79 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.
78 Tian, X., W. Zhang, and J. Zhang, 2015,
Cross double-difference inversion method for microseismic location: SEG
Technical Program Expanded Abstracts 2015, 2640-2644.
77 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.
76 Liu, Z., and J. Zhang, 2015, Joint
traveltime and waveform envelope inversion for near-surface imaging: SEG
Technical Program Expanded Abstracts 2015, 1154-1158.
75 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.
74 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.
73 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.
72 Zhang, J. and X. Zhang, 2015, Full elastic
waveform search engine for near surface imaging: Near-Surface Asia Pacific
Conference 2015, 92-95.
71 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.
70 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.
69 Zhang, J., X. Zhang, and W. Zhang, 2015,
Microseismic search engine for real-time event monitoring: Near-Surface Asia
Pacific Conference 2015, 237-240.
68 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.
67 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.
66 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.
64 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.
63 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.
62 Zhang, J., H. Zhang, E. Chen, Y. Zheng, W.
Kuang, and X. Zhang, 2014, Real-time earthquake monitoring using a search
engine method: Nature Communication, DOI: 10.1038/ncomms6664.
61 Zhang, J., and J. Chen, 2014, Joint
seismic traveltime and waveform inversion for near surface imaging: SEG
Technical Program Expanded Abstracts 2014, 934-937.
60 Liu, Z., and J. Zhang, 2014, Pseudo 2D
elastic full waveform inversion for near surface imaging: SEG Technical Program
Expanded Abstracts 2014, 1017-1021.
59 Zhang, C., J. Zhang, and Z. Sun, 2014,
Refraction interferometry for residual statics solutions: SEG Technical Program
Expanded Abstracts 2014, 2045-2049.
58 Zhu, H., and J. Zhang, 2014, The PageRank
method for automatic detection of microseismic events: SEG Technical Program
Expanded Abstracts 2014, 2163-2167.
57 Cai, J., and J. Zhang, 2014, Full waveform
inversion of physical model data: SEG Technical Program Expanded Abstracts
2014, 997-1001.
56 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.
55 Tian, 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.
54 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.
53 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.
52 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.
51 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.
50 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.
49 Zhang, J., X. Zhang, and W. Zhang, 2013,
Microseismic search engine: SEG Technical Program Expanded Abstracts 2013,
2140-2144.
48 Zhang, W., and J. Zhang, 2013,
Microseismic migration by semblance-weighted stacking and interferometry: SEG
Technical Program Expanded Abstracts 2013, 2045-2049.
47 Kuang, W., W. Zhang, and J. Zhang, 2013,
Locating microseismic events with S-wave data only: SEG Technical Program
Expanded Abstracts 2013, 2243-2247.
46 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.
45 Liu, Z., and J. Zhang, 2013, Elastic full
waveform inversion for near surface imaging: SEG Technical Program Expanded
Abstracts 2013, 1904-1908.
44 Zhang, L., J. Zhang, and W. Zhang, 2013,
3D VTI traveltime tomography for near surface imaging: SEG Technical Program
Expanded Abstracts 2013, 1754-1759.
43 Ogunbo, J. N., and J. Zhang, 2013, TEM
search engine for fast near surface imaging. SEG Technical Program Expanded
Abstracts 2013, 1878-1882.
42 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.
41 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.
40 Zhang, X., and J. Zhang, 2012, Edge
preserving regularization for seismic traveltime tomography: SEG Technical
Program Expanded Abstracts 2012, 112-115.
39 Zhang, L., J. Zhang, and W. Zhang, 2012,
Anisotropic effects on the near-surface seismic imaging: SEG Technical Program
Expanded Abstracts 2012, 1-5.
38 Zhang, W., and J. Zhang, 2011, Full
waveform tomography with consideration for large topography variations: SEG
Technical Program Expanded Abstracts 2011, 2539-2542.
37 He, L., J. Zhang, and W. Zhang, 2011,
Tradeoffs in the near-surface seismic imaging solutions, SEG Technical Program
Expanded Abstracts 2011, 4015-4019.
36 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.
35 Zhang, J., 2006, Refraction migration:
imaging multiple refractors automatically, Expanded Abstract, SEG 71st Annual
Meeting in New Orleans, Louisiana, p2426.
34 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.
33 Zhang, J., O. Yilmaz, and N. Dai. 2006.
First-arrival tomostatics and residual statics for near-surface corrections.
CSPG CSEG CWLS Convention.
32 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 imbricate structures in thrust belts, Expanded
Abstract: SEG 70th Annual Meeting in Houston, Texas, 404.
31 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.
30 Zhang, J., and O. Yilmaz, 2005,
Near-surface corrections for complex structure imaging, Expanded Abstract: SEG
70th Annual Meeting in Houston, Texas, 2566-2568.
29 Zhang, J., Z. Sun, and C. Lippus, 2003,
On-site instant automated refraction tomography, Proceedings, SAGEEP:
Environmental and Engineering Geophysical Society, 1228-1231.
28 Zhang, J., and H. S. Kim, 2003, 3D
refraction tomography for near-surface geological studies, Proceedings, SAGEEP:
Environmental and Engineering Geophysical Society, 1285-1288.
27 Cheng, A., and Zhang, J., 2001, Imaging
complex structures with crosswell seismology, Expanded Abstract: SEG 70th
Annual Meeting in Houston, Texas, 483-486.
26 Zhang, Z., and J. Zhang, 2001, A
comparative study of 2D and 3D crosswell tomography, ASEG Extended Abstracts
2001: 15th Geophysical Conference, 1-4.
25 ten Brink, US, J Zhang, TM Brocher, DA
Okaya, KD Klitgord, GS Fuis, 2000. Geophysical evidence for the evolution of
the California Inner Continental Borderland as a metamorphic core complex.
Journal of Geophysical Research: Solid Earth 105 (B3), 5835-5857.
24 Zhang, J., and M. N. Toksoz, 1998.
Nonlinear refraction traveltime tomography: Geophysics, 63, 5, 1726-1737.
23 Zhang, J., U. S. ten Brink and M. N.
Toksoz, 1998. Nonlinear joint refraction and reflection traveltime tomography:
J. Geophys. Res., 103, B12, 29, 743-757.
22 Zhang, J., 1998, Rapid 3D reflection
raytracing for interface models, Expanded Abstract: SEG 63rd Annual Meeting in
Dallas, Texas Houston, Texas, 1897-1899.
21 Zhang, J., and E. Lavely, 1998, Rapid 3D
refraction and reflection raytracing: Proceedings, SAGEEP, Chicago, Illinois,
Environmental and Engineering Geophysical Society, 250-255.
20 Zhang, J., and E. Lavely, 1998, Optimizing
3D refraction and reflection survey design: Proceedings, SAGEEP, Chicago,
Illinois, Environmental and Engineering Geophysical Society, 125-130.
19 Zhang, J., and M. N. Toksoz, 1997, Joint
refraction traveltime migration and tomography:
Proceedings, SAGEEP, Reno, Nevada, Environmental and Engineering
geophysical Society, 901-910.
18 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.
17 Zhang, J., 1997, Regularizing data in 3-D
d.c. resistivity tomography: Proceedings, SAGEEP 1997, Reno, Nevada,
Environmental and Engineering Geophysical Society, 911-915.
16 Zhang, J., and D. F. Morgan, 1997, Joint
seismic and electrical tomography: Proceedings, SAGEEP 1997, Reno, Nevada,
Environmental and Engineering Geophysical Society, 391-396.
15 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.
14 Turpening, R., J. Zhang, C. Chauvelier, F.
D. Morgan, M. N. Toksöz, 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.
13 Zhang, J. and C. A. Langston, 1996, Array
observations of the shear-coupled PL wave: Bull. Seism. Soc. Am., 86, 2, 47-54.
12 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.
11 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.
10 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.
9 Zhang, J. and M. N. Toksoz, 1996,
Nonlinear refraction traveltime tomography: SEG Technical Program Expanded
Abstracts, 2011-2014.
8 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.
7 Zhang, J. and C. A. Langston, 1995,
Dipping structure under Dourbes, Belgium, determined by receiver function
modeling and inversion: Bull. Seism. Soc. Am., 85, 254-268.
6 Zhang, J., R. L. Mackie, and T. R.
Madden, 1995, 3-D resistivity forward modeling and inversion using conjugate
gradients: Geophysics, 60, 1313-1325.
5 Zhang, J., and C. A. Langston, 1995,
Constraints on oceanic lithosphere structure from deep‐focus
regional receiver function inversions: J. Geophys. Res., 100, 22187-22196.
4 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.
3 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.
2 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.
1 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.