Ajiduah, S. W., and Margrave, G. F., 2014, A modeling and migration study of fault shadows: A synthetic example: CREWES Research Report, 26, 1, 27.
Al Dulaijan, K. A., and Margrave, G. F., 2014, Seismic analysis for fractured reservoirs of south Komie 3D data: CREWES Research Report, 26, 3, 20.
Al Dulaijan, K. A., Margrave, G. F., and Wong, J., 2014, Azimuthal anisotropy investigations for P and S waves: a physical modelling experiment: CREWES Research Report, 26, 2, 28.
Arenrin, B., Margrave, G. F., and Bancroft, J. C., 2014, A turning-ray algorithm using Slotnick's equation: CREWES Research Report, 26, 5, 11.
Arenrin, B., Margrave, G. F., and Bancroft, J. C., 2014, FWI with source illumination: A synthetic case study: CREWES Research Report, 26, 4, 21.
Asuaje, R. J., and Lawton, D. C., 2014, Sensitivity of interval Vp/Vs analysis of seismic data: CREWES Research Report, 26, 6, 29.
Bancroft, J. C., 2014, Comments on the imaging condition: CREWES Research Report, 26, 7, 8.
Bancroft, J. C., 2014, Modelling with finite difference approximations to the wave-equation: CREWES Research Report, 26, 9, 10.
Bancroft, J. C., 2014, The sensitivity of velocities with elevation change: CREWES Research Report, 26, 11, 7.
Bancroft, J. C., Isaac, J. H., and Henley, D. C., 2014, Evaluation of one-hundred shots repeated at the same location: CREWES Research Report, 26, 8, 13.
Bancroft, J. C., Isaac, J. H., and Saeed, A. N., 2014, Processing seismic data for high spatial resolution: CREWES Research Report, 26, 10, 15.
Bertram, K. L., Bertram, M. B., Hall, K. W., Gallant, E. V., Lawton, D. C., Margrave, G. F., and Innanen, K. A., 2014, Out of the office, a brief overview of CREWES field acquisition: CREWES Research Report, 26, 12, 20.
Bertram, M. B., Hall, K. W., Lawton, D. C., Burton, G., and Wild, P., 2014, Installation of a vertical pressure cell at the Priddis Geophysical Observatory: CREWES Research Report, 26, 13, 12.
Cova, R., Henley, D. C., and Innanen, K. A., 2014, Addressing non-stationary shear wave statics in the rayparameter domain: CREWES Research Report, 26, 14, 17.
Cova, R., and Innanen, K. A., 2014, Computing pseudo-shear-wave data using PP and PS-wave traveltime interferometry in the rayparameter domain: CREWES Research Report, 26, 15, 9.
Cova, R., and Innanen, K. A., 2014, Inverting raypath-dependent delay times to compute S-wave velocities in the near surface: CREWES Research Report, 26, 16, 15.
CREWES, 2014, Summary Book: CREWES Research Report, 26, 102.
Cui, T., and Margrave, G. F., 2014, Drift time estimation by dynamic time warping: CREWES Research Report, 26, 17, 20.
Cui, T., and Margrave, G. F., 2014, Seismic wavelet estimation: CREWES Research Report, 26, 18, 16.
Daley, P. F., 2014, Absorbing boundaries in acoustic wave finite difference analogues: CREWES Research Report, 26, 19, 9.
Daley, P. F., 2014, Porous medium - the P-wave case: CREWES Research Report, 26, 20, 10.
Daley, P. F., 2014, TI medium - absorbing boundary conditions: CREWES Research Report, 26, 21, 19.
Dongas, J. M., and Lawton, D. C., 2014, Development of a geostatic model for a geoscience field research station in Alberta: CREWES Research Report, 26, 22, 47.
Esmaeili, S., and Margrave, G. F., 2014, Improving frequency domain deconvolution at low frequencies: CREWES Research Report, 26, 23, 20.
Esmaeili, S., and Margrave, G. F., 2014, The optimum color operator for recovering low frequencies: CREWES Research Report, 26, 24, 16.
Gordon, A., Cova, R., and Innanen, K. A., 2014, Computing pseudo-crosswell data by using seismic interferometry with sources on the surface: CREWES Research Report, 26, 25, 16.
Guarido, M., Lines, L. R., and Ferguson, R. J., 2014, Full waveform inversion - a synthetic test using the PSPI migration: CREWES Research Report, 26, 26, 23.
Guevara, S. E., and Margrave, G. F., 2014, Receiver statics correction of PS-wave using prestack data in the receiver domain: CREWES Research Report, 26, 27, 15.
Gunning, B. J., and Lawton, D. C., 2014, Processing and interpretation of 2D seismic data from Inglewood Park, Calgary, Alberta: CREWES Research Report, 26, 28, 7.
Guo, J., Zheng, Y., and Liao, W., 2014, Arbitrarily sampled Fourier transform (ASFT) for 5D interpolation: CREWES Research Report, 26, 29, 1.
Hall, K. W., Bertram, K. L., Bertram, M. B., Wong, J., Manning, P. M., Gallant, E. V., Innanen, K. A., Lawton, D. C., and Margrave, G. F., 2014, Priddis 2014 broadband surface and walkaway VSP seismic experiment: CREWES Research Report, 26, 30, 23.
Henley, D. C., 2014, Projections: an old diagnostic tool revisited: CREWES Research Report, 26, 31, 25.
Henley, D. C., 2014, Through a glass darkly: improving raypath interferometry: CREWES Research Report, 26, 33, 33.
Henley, D. C., and Wong, J., 2014, Reversing entropy: deblending and imaging physical modeling data: CREWES Research Report, 26, 32, 25.
Innanen, K. A., 2014, A second-order preconditioner for Newton updates in seismic full waveform inversion: CREWES Research Report, 26, 40, 14.
Innanen, K. A., 2014, Estimating anelastic dispersion from uncorrelated vibe data: CREWES Research Report, 26, 34, 17.
Innanen, K. A., 2014, Formulas for time-lapse seismic refraction data analysis: CREWES Research Report, 26, 35, 5.
Innanen, K. A., 2014, Multicomponent elastic reflection full waveform inversion: CREWES Research Report, 26, 37, 18.
Innanen, K. A., 2014, Particle model of walkaway VSP data: CREWES Research Report, 26, 38, 14.
Innanen, K. A., 2014, Quantifying the incompleteness of the physics model in seismic inversion: CREWES Research Report, 26, 39, 6.
Innanen, K. A., 2014, Seismic full waveform inversion with nonlinear sensitivities: CREWES Research Report, 26, 41, 15.
Innanen, K. A., and Pan, P., 2014, Large dip artifacts in 1.5D internal multiple prediction and their mitigation: CREWES Research Report, 26, 36, 6.
Isaac, J. H., and Lawton, D. C., 2014, Preparing for experimental CO2 injection: Geology of the site: CREWES Research Report, 26, 42, 9.
Isaac, J. H., and Lawton, D. C., 2014, Preparing for experimental CO2 injection: Seismic data analysis: CREWES Research Report, 26, 43, 8.
Jabbari, S., Grossman, J. P., Isaac, J. H., and Innanen, K. A., 2014, Towards application of nonlinear time-lapse AVO to the Pouce Coupe data set: CREWES Research Report, 26, 44, 8.
Kolb, J. M., Cho, D., and Innanen, K. A., 2014, Azimuthal AVO and curvature: CREWES Research Report, 26, 45, 18.
Kolb, J. M., Innanen, K. A., and Cho, D., 2014, Series analysis of anisotropic reflection coefficients for inversion: CREWES Research Report, 26, 46, 7.
Lamoureux, M. P., 2014, Non-linear Vibroseis models for generating harmonics: CREWES Research Report, 26, 47, 11.
Lawton, D. C., Bertram, M. B., Bertram, K. L., Hall, K. W., and Isaac, J. H., 2014, A 3C-3D seismic survey at a new field research station near Brooks, Alberta: CREWES Research Report, 26, 48, 18.
Lines, L. R., 2014, FWI and the "noise" quandary: CREWES Research Report, 26, 49, 6.
Manning, P. M., 2014, Minimized energy used to determine displacements at an internal boundary (finite-difference models): CREWES Research Report, 26, 50, 6.
Manning, P. M., Gallant, E. V., and Hall, K. W., 2014, Recording seismic on geophones within ground screws: CREWES Research Report, 26, 51, 6.
Margrave, G. F., 2014, Stratigraphic filtering and Q estimation: CREWES Research Report, 26, 53, 25.
Margrave, G. F., and Daley, P. F., 2014, VSP modelling in 1D with Q and buried source: CREWES Research Report, 26, 54, 26.
Margrave, G. F., Innanen, K. A., Lawton, D. C., Bancroft, J. C., Lamoureux, M. P., and Lines, L. R., 2014, CREWES 5-year research plan: Towards broadband multicomponent seismology and practical iterated inversion: CREWES Research Report, 26, 52, 1.
Montano, M. C., Lawton, D. C., and Margrave, G. F., 2014, Shallow Qp and Qs estimation from multicomponent VSP data: CREWES Research Report, 26, 55, 24.
Moradi, S., and Innanen, K. A., 2014, Partial wave analysis of seismic wave scattering: CREWES Research Report, 26, 58, 25.
Moradi, S., and Innanen, K. A., 2014, Scattering of homogeneous and inhomogeneous viscoelastic waves from arbitrary heterogeneities: update: CREWES Research Report, 26, 59, 20.
Moradi, S., and Innanen, K. A., 2014, Some exact forms for viscoelastic reflection coefficients: CREWES Research Report, 26, 60, 11.
Moradi, S., Khaniani, H., and Innanen, K. A., 2014, Numerical analysis of scattering in a viscoelastic medium: CREWES Research Report, 26, 57, 12.
Moradi, S., Lawton, D. C., and Krebes, E. S., 2014, Time-lapse poroelastic modelling for a carbon capture and storage (CCS) project in Alberta: CREWES Research Report, 26, 56, 12.
Nowroozi, D., and Lawton, D. C., 2014, Rock physics study of the Nisku aquifer from results of reservoir simulation: CREWES Research Report, 26, 61, 18.
Nowroozi, D., and Lawton, D. C., 2014, Seismic parameter design for reservoir monitoring, Brooks, Alberta: CREWES Research Report, 26, 62, 29.
Pan, P., and Innanen, K. A., 2014, Internal multiple prediction on Hussar synthetics: CREWES Research Report, 26, 64, 11.
Pan, P., Innanen, K. A., and Wong, J., 2014, 1.5D internal multiple prediction on physical modeling data: CREWES Research Report, 26, 63, 13.
Pan, W., Innanen, K. A., Fehler, M. C., Margrave, G. F., and Fang, X., 2014, FWI inversion sensitivities of elastic stiffness coefficients in fractured media: analytic results: CREWES Research Report, 26, 65, 31.
Pan, W., Innanen, K. A., Margrave, G. F., Li, J., Fang, X., and Fehler, M. C., 2014, FWI inversion sensitivities of elastic stiffness coefficients in fractured media: numerical modelling: CREWES Research Report, 26, 66, 23.
Russell, B. H., and Ribordy, C., 2014, New edge detection methods for seismic interpretation: CREWES Research Report, 26, 67, 14.
Saeed, A. N., Margrave, G. F., Henley, D. C., Isaac, J. H., and Lines, L. R., 2014, Seismic imaging of the Hussar low frequency seismic data: CREWES Research Report, 26, 69, 18.
Saeed, A. N., Margrave, G. F., and Lines, L. R., 2014, Pre-stack (AVO) and post-stack inversion of the Hussar low frequency seismic data: CREWES Research Report, 26, 68, 9.
Smith, A. D., and Ferguson, R. J., 2014, Geometrical corrections for poststack image focusing velocity analysis: CREWES Research Report, 26, 70, 29.
Smith, A. D., and Ferguson, R. J., 2014, Minimum-phase signal calculation using the real cepstrum: CREWES Research Report, 26, 72, 23.
Smith, A. D., Ferguson, R. J., and Stewart, R. R., 2014, Georadar processing and imaging with Gabor deconvolution - Houston Coastal Center: CREWES Research Report, 26, 71, 15.
Stewart, R. R., and Hyslop, C., 2014, Subsurface imaging using reflected ground roll: CREWES Research Report, 26, 73, 1.
Sun, J., and Innanen, K. A., 2014, 1.5D Internal multiple prediction in the plane wave domain: CREWES Research Report, 26, 74, 11.
Sun, J., and Innanen, K. A., 2014, A review of converted wave AVO analysis: CREWES Research Report, 26, 75, 13.
Wong, J., 2014, Automatic time-picking of first arrivals on large seismic datasets: CREWES Research Report, 26, 76, 15.
Wong, J., 2014, Physically-modeled 3D marine survey over HTI targets: CREWES Research Report, 26, 78, 12.
Wong, J., and Langton, D., 2014, Field testing of multiple simultaneous vibrator sources controlled by filtered m-sequences: CREWES Research Report, 26, 77, 19.
Wu, B., Lawton, D. C., and Hall, K. W., 2014, Analysis of multicomponent walkaway vertical seismic profile data: CREWES Research Report, 26, 79, 23.
Yedlin, M. J., Margrave, G. F., van Vorst, D., and Ben Horin, Y., 2014, Tikhonov regularization of instantaneous frequency attribute computations: CREWES Research Report, 26, 80, 14.