Tsvankin, Ilya - Department of Geophysics, Colorado School of Mines

• GEOPHYSICS, VOL. 64, NO. 3 (MAY-JUNE 1999); P. 820837, 11 FIGS., 1 TABLE. 3-D moveout velocity analysis and parameter
• GEOPHYSICS, VOL. 64, NO. 1 (JANUARY-FEBRUARY 1999); P. 146161, 9 FIGS., 2 TABLES. Joint inversion of P-and PS-waves in orthorhombic media
• Modeling and inversion of PS-wave moveout asymmetry for tilted TI media: Part 2 --Dipping TTI layer
• A synthetic example of anisotropic P-wave processing for a model from the Gulf of Mexico
• GEOPHYSICS, VOL. 62, NO. 4 (JULY-AUGUST 1997); P. 12601269, 11 FIGS. Dip-moveout processing by Fourier
• Correction for the influence of velocity lenses on nonhyperbolic moveout inversion for VTI media
• Seismic anisotropy in exploration and reservoir characterization: An overview
• Stacking-velocity inversion with borehole constraints for tilted TI media Xiaoxiang Wang1
• Geophysical Prospecting, 2009, 57, 1326 doi: 10.1111/j.1365-2478.2008.00732.x Migration velocity analysis for tilted transversely isotropic media
• Effective reflection coefficients for curved interfaces in transversely isotropic media
• Estimation of interval anisotropic attenuation from reflection data Jyoti Behura1
• Analysis of the symmetry of a stressed medium using nonlinear elasticity Rodrigo Felcio Fuck1
• Moveout-based geometrical-spreading correction for PS-waves in layered anisotropic media This article has been downloaded from IOPscience. Please scroll down to see the full text article.
• Plane-wave attenuation anisotropy in orthorhombic media Yaping Zhu1
• Seismic critical-angle reflectometry: A method to characterize azimuthal anisotropy?
• Effective attenuation anisotropy of thin-layered media Yaping Zhu1
• Velocity-independent layer stripping of PP and PS reflection traveltimes Pawan Dewangan1
• Seismic signatures of two orthogonal sets of vertical microcorrugated fractures
• Small-angle AVO response of PS-waves in tilted transversely isotropic media
• Anisotropic geometrical-spreading correction for wide-azimuth P-wave reflections
• GEOPHYSICS, VOL. 70, NO. 5 (SEPTEMBER-OCTOBER 2005); P. D55D64, 18 FIGS., 1 TABLE. 10.1190/1.2052468
• GEOPHYSICS, VOL. 69, NO. 3 (MAY-JUNE 2004); P. 699707, 15 FIGS. 10.1190/1.1759456
• GEOPHYSICS, VOL. 68, NO. 5 (SEPTEMBER-OCTOBER 2003); P. 16001610, 8 FIGS. 10.1190/1.1620634
• GEOPHYSICS, VOL. 68, NO. 6 (NOVEMBER-DECEMBER 2003); P. 20162025, 13 FIGS. 10.1190/1.1635055
• GEOPHYSICS, VOL. 67, NO. 6 (NOVEMBER-DECEMBER 2002); P. 19201928, 8 FIGS. 10.1190/1.1527092
• GEOPHYSICS, VOL. 67, NO. 5 (SEPTEMBER-OCTOBER 2002); P. 15641574, 12 FIGS., 2 TABLES. 10.1190/1.1512802
• GEOPHYSICS, VOL. 66, NO. 3 (MAY-JUNE 2001); P. 897903, 4 FIGS., 1 TABLE. Depth-domain velocity analysis in VTI media using surface
• GEOPHYSICS, VOL. 66, NO. 3 (MAY-JUNE 2001); P. 904910, 7 FIGS., 3 TABLES. Velocity analysis for tilted transversely isotropic media: A physical
• Dip moveout of converted waves and parameter estimation in transversely isotropic media
• GEOPHYSICS, VOL. 65, NO. 6 (NOVEMBER-DECEMBER 2000); P. 17881802, 8 FIGS. Estimation of fracture parameters from reflection seismic data--Part I
• GEOPHYSICS, VOL. 65, NO. 6 (NOVEMBER-DECEMBER 2000); P. 18031817, 5 FIGS., 1 TABLE. Estimation of fracture parameters from reflection seismic data--Part II
• GEOPHYSICS, VOL. 65, NO. 6 (NOVEMBER-DECEMBER 2000); P. 18181830, 6 FIGS., 1 TABLE. Estimation of fracture parameters from reflection seismic data--Part III
• Generalized Dix equation and analytic treatment of normal-moveout velocity for anisotropic media
• GEOPHYSICS, VOL. 64, NO. 4 (JULY-AUGUST, 1999); P. 11391142 Special section on azimuthal dependence of P-wave
• GEOPHYSICS, VOL. 63, NO. 3 (MAY-JUNE 1998); P. 10791092, 10 FIGS. 3-D description of normal moveout in
• GEOPHYSICS, VOL. 63, NO. 5 (SEPTEMBER-OCTOBER 1998); P. 17381753, 13 FIGS., 3 TABLES. Nonhyperbolic reflection moveout for horizontal
• GEOPHYSICS, VOL. 62, NO. 4 (JULY-AUGUST 1997); P. 12921309, 6 FIGS. Anisotropic parameters and P-wave
• Velocity analysis and imaging in transversely isotropic media
• Theory of traveltime shifts around compacting reservoirs: 3D solutions for heterogeneous anisotropic media
• Geomechanical properties of tight, low-porosity reser-voirs are largely governed by natural fracture networks.
• GEOPHYSICS, VOL. 67, NO. 3 (MAY-JUNE 2002); P. 939951, 6 FIGS., 1 TABLE. 10.1190/1.1484536
• Properties of evanescent waves in anisotropic media Ilya Tsvankin
• GEOPHYSICS, VOL. 67, NO. 6 (NOVEMBER-DECEMBER 2002); P. 19291932, 3 FIGS., 2 TABLES. 10.1190/1.1527093
• GEOPHYSICS, VOL. 71, NO. 2 (MARCH-APRIL 2006); P. T17T30, 11 FIGS. 10.1190/1.2187792
• Inversion of normal moveout for monoclinic media Vladimir Grechka
• GEOPHYSICS, VOL. 65, NO. 1 (JANUARY-FEBRUARY 2000); P. 232246, 11 FIGS., 2 TABLES. Inversion of azimuthally dependent NMO velocity in transversely
• GEOPHYSICS, VOL. 67, NO. 3 (MAY-JUNE 2002); P. 701710, 14 FIGS. 10.1190/1.1484513
• Role of the inhomogeneity angle in anisotropic attenuation analysis Jyoti Behura1
• OCTOBER1997 THE LEADING EDGE 1429 Tight, low-porosity reservoirs can produce significant
• GEOPHYSICS, VOL. 63, NO. 3 (MAY-JUNE 1998); P. 957969, 9 FIGS., 1 TABLE. Feasibility of nonhyperbolic moveout inversion
• GEOPHYSICS, VOL. 70, NO. 2 (MARCH-APRIL 2005); P. D1D8, 7 FIGS. 10.1190/1.1897026
• Geophysical Prospecting, 2006, 54, 535552 Non-hyperbolic moveout inversion of wide-azimuth P-wave data
• GEOPHYSICS, VOL. 62, NO. 2 (MARCH-APRIL 1997); P. 614629, 7 FIGS. Reflection moveout and parameter estimation
• GEOPHYSICS, VOL. 61, NO. 2 (MARCH-APRIL 1996); P. 467-483, 10 FIGS. P-wave signatures and notation for transversely
• GEOPHYSICS, VOL. 64, NO. 4 (JULY-AUGUST 1999); P. 12021218, 12 FIGS. 3-D moveout inversion in azimuthally anisotropic media
• Modeling and inversion of PS-wave moveout asymmetry for tilted TI media: Part I --Horizontal TTI layer
• Estimation of interval anisotropy parameters using velocity-independent layer stripping
• Thetechnologyofocean-bottomsurveyshasputmode-con-verted waves at the forefront of seismic exploration and
• GEOPHYSICS, VOL. 69, NO. 3 (MAY-JUNE 2004); P. 708718, 17 FIGS. 10.1190/1.1759457
• 14 CSEG RECORDER April 2006 Continued on Page 15
• GEOPHYSICS, VOL. 70, NO. 5 (SEPTEMBER-OCTOBER 2005); P. D43D53, 7 FIGS., 1 TABLE. 10.1190/1.2052467
• GEOPHYSICS, VOL. 67, NO. 5 (SEPTEMBER-OCTOBER 2002); P. 13821395, 16 FIGS. 10.1190/1.1512784
• Developments in seismic anisotropy: Treating realistic subsurface models in imaging and fracture detection
• Seismic characterization of vertical fractures described as general linear-slip interfaces
• GEOPHYSICS, VOL. 67, NO. 6 (NOVEMBER-DECEMBER 2002); P. 19611971, 14 FIGS. 10.1190/1.1527096
• Analysis of prestack amplitude variation with offset and azimuth (often called "azimuthalAVO analysis" or "AVAZ")
• Characterization of dipping fractures in transversely isotropic background
• Moveout inversion of wide-azimuth P-wave data for tilted TI media Xiaoxiang Wang1
• Geophysical Prospecting doi: 10.1111/j.1365-2478.2010.00909.x Influence of background heterogeneity on traveltime shifts
• 3-D description and inversion of reflection moveout of PS-waves in anisotropic media
• GEOPHYSICS, VOL. 64, NO. 4 (JULY-AUGUST 1999); P. 11261138, 7 FIGS. Coarse-layer stripping of vertically variable azimuthal
• Physical modeling and analysis of P-wave attenuation anisotropy in transversely isotropic media
• GEOPHYSICS, VOL. 67, NO. 1 (JANUARY-FEBRUARY 2002); P. 292299, 3 FIGS. 10.1190/1.1451801
• AVO-sensitive semblance analysis for wide-azimuth data and Ilya Tsvankin1
• GEOPHYSICS, VOL. 64, NO. 4 (JULY-AUGUST 1999); P. 12191229, 7 FIGS., 1 TABLE. Moveout inversion of P-wave data for horizontal transverse isotropy
• Geophysical Prospecting, 2006, 54, 575587 Anisotropic migration velocity analysis: Application to a data set from
• Reflection coefficients in attenuative anisotropic media Jyoti Behura1
• GEOPHYSICS, VOL. 68, NO. 4 (JULY-AUGUST 2003); P. 13991407, 4 FIGS., 3 TABLES. 10.1190/1.1598133
• Estimation of shear-wave interval attenuation from mode-converted data Bharath Shekar1