Al Dulaijan, K. A., Margrave, G. F., and Wong, J., 2013, A physical model investigation of P and S wave azimuthal anisotropy on transmission: CREWES Research Report, 25, 1, 16.
Alarfaj, M., and Lawton, D. C., 2013, Kinematic structural forward modeling for fault trajectory prediction in seismic interpretation: CREWES Research Report, 25, 2, 16.
Arenrin, B., Margrave, G. F., and Bancroft, J. C., 2013, Turning-ray tomography and tomostatics: CREWES Research Report, 25, 4, 15.
Arenrin, B., Margrave, G. F., and Maier, R., 2013, Preliminary results using Acceleware's AxRTM API: CREWES Research Report, 25, 3, 8.
Arthur, J. M., and Lawton, D. C., 2013, Seismic interpretation of the Canterbury Plains, New Zealand: CREWES Research Report, 25, 5, 32.
Askari, R., Ferguson, R. J., and Isaac, J. H., 2013, Estimation of Converted Waves Static Corrections Using CMP Cross- Correlation of Surface Waves: CREWES Research Report, 25, 6, 24.
Asuaje, R. J., Lawton, D. C., Bertram, M. B., Bertram, K. L., Hall, K. W., and Gallant, E. V., 2013, Analysis of multicomponent seismic data recorded with a new hydraulic thumper source: CREWES Research Report, 25, 7, 7.
Bancroft, J. C., 2013, Comments on wavefield propagation using reverse-time and downward continuation: CREWES Research Report, 25, 8, 25.
Bancroft, J. C., and Blais, R., 2013, Modelling, migration, and inversion using linear algebra: CREWES Research Report, 25, 9, 12.
Bancroft, J. C., Guirigay, T. A., Yousefzadeh, A., and Isaac, J. H., 2013, Resolution enhancement with deconvolution after migration: CREWES Research Report, 25, 10, 19.
Bertram, K. L., Bertram, M. B., Hall, K. W., Gallant, E. V., Lawton, D. C., Margrave, G. F., and Innanen, K. A. H., 2013, CREWES in the field, acquisition and preliminary results: CREWES Research Report, 25, 11, 31.
Bertram, M. B., Lawton, D. C., Hall, K. W., Bertram, K. L., and Gallant, E. V., 2013, Recent data from the Priddis Geophysical Observatory: CREWES Research Report, 25, 12, 11.
Cao, D., and Liao, W., 2013, A hybrid tomography method for crosswell seismic inversion: CREWES Research Report, 25, 13, 10.
Cheng, P., and Margrave, G. F., 2013, Comparison of Q-estimation methods: an update: CREWES Research Report, 25, 14, 38.
Cho, D., 2013, Cross-correlation based time warping of one-dimensional seismic signals: CREWES Research Report, 25, 15, 6.
Cova, R., Henley, D. C., and Innanen, K. A. H., 2013, An interferometric solution for raypath-consistent shear wave statics: CREWES Research Report, 25, 17, 17.
Cova, R., Henley, D. C., and Innanen, K. A. H., 2013, Non-stationary shear wave statics in the radial trace domain: CREWES Research Report, 25, 18, 14.
Cova, R., and Innanen, K. A. H., 2013, Approximate- vs. full-Hessian in FWI: 1D analytical and numerical experiments: CREWES Research Report, 25, 16, 15.
CREWES, 2013, Summary Book: CREWES Research Report, 25, 108.
Cui, X., Lines, L. R., and Krebes, E. S., 2013, Seismic modeling and inversion for reflections from fractures: CREWES Research Report, 25, 19, 15.
Daley, P. F., 2013, Anelastic (poroviscoelastic ) medium - the SH - wave problem: CREWES Research Report, 25, 20, 19.
Daley, P. F., 2013, Higher order theory for analytic saddle point approximations to the PP and PS reflected arrivals at a solid/solid interface: CREWES Research Report, 25, 21, 15.
Daley, P. F., 2013, More numerical experiments in high frequency edge diffraction theory: CREWES Research Report, 25, 22, 17.
Esmaeili, S., and Margrave, G. F., 2013, Recovering low frequencies for impedance inversion by frequency domain deconvolution: CREWES Research Report, 25, 23, 18.
Gavotti, P. E., and Lawton, D. C., 2013, Inversion of seismic data for assessing fluid replacement in the Nisku Formation: CREWES Research Report, 25, 24, 31.
Gavotti, P. E., and Lawton, D. C., 2013, Seismic processing workflow for supressing coherent noise while retaining low-frequency signal: CREWES Research Report, 25, 25, 16.
Guevara, S. E., and Margrave, G. F., 2013, Analysis of S-waves generated by explosive sources in boreholes: modeling and the Priddis experiment: CREWES Research Report, 25, 26, 7.
Guevara, S. E., and Margrave, G. F., 2013, The role of source modeling in prestack depth migration for AVO estimation: CREWES Research Report, 25, 28, 8.
Guevara, S. E., Margrave, G. F., Arenrin, B., Bancroft, J. C., and Agudelo, W. M., 2013, Converted-wave processing in a complex area: near surface and depth imaging challenges: CREWES Research Report, 25, 27, 8.
Guevara, S. E., Margrave, G. F., and Lawton, D. C., 2013, Wave mode separation for a surface with slope using the free-surface response: CREWES Research Report, 25, 29, 6.
Hall, K. W., Bertram, K. L., Bertram, M. B., Gallant, E. V., Margrave, G. F., and Lawton, D. C., 2013, Installation of new observation wells at the Priddis Geophysical Observatory: CREWES Research Report, 25, 30, 26.
Hall, K. W., and Margrave, G. F., 2013, Updates to readlas: CREWES Research Report, 25, 31, 7.
Harrison, C. B., Margrave, G. F., Lamoureux, M. P., Siewert, A., Barrett, A., and Isaac, J. H., 2013, Harnessing harmonics for imaging thin shallow reflectors: CREWES Research Report, 25, 32, 9.
Henley, D. C., and Mahmoudian, F., 2013, Undoing wavefield interference for AVAZ measurements: CREWES Research Report, 25, 34, 15.
Henley, D. C., and Wong, J., 2013, Through the looking glass: using X-T plane distortions for wavefield separation: CREWES Research Report, 25, 33, 30.
Henley, D. C., and Wong, J., 2013, Which way is up?-experiences with processing physical modeling data: CREWES Research Report, 25, 35, 31.
Hernandez Quijada, M. J., and Innanen, K. A. H., 2013, Identifying internal multiples using 1D prediction: physical modelling and land data examples: CREWES Research Report, 25, 36, 18.
Hyslop, C., Stewart, R. R., and Zhang, M., 2013, Finding faults: Using ground roll reflections to image lateral discontinuities: CREWES Research Report, 25, 37, 14.
Innanen, K. A. H., 2013, A framework for multiparameter full waveform inversion of precritical reflection seismic data: CREWES Research Report, 25, 39, 15.
Innanen, K. A. H., 2013, How AVO information can be practically incorporated in full waveform inversion: CREWES Research Report, 25, 40, 20.
Innanen, K. A. H., 2013, Internal multiple prediction in the continuous wavelet transform maxima domain: CREWES Research Report, 25, 41, 8.
Innanen, K. A. H., 2013, Seismic processing with continuous wavelet transform maxima: CREWES Research Report, 25, 42, 24.
Innanen, K. A. H., and Hall, K. W., 2013, A collision theory of seismic waves applied to elastic VSP data: CREWES Research Report, 25, 38, 12.
Isaac, J. H., and Lawton, D. C., 2013, Squeezing more out of 2D seismic data: Processing and interpretation of a pseudo-3D seismic survey from New Zealand: CREWES Research Report, 25, 44, 7.
Isaac, J. H., Zhi, L., Bertram, M. B., Lawton, D. C., and Bentley, L. R., 2013, Geophysical characterization of the near-surface at Priddis, Alberta: CREWES Research Report, 25, 43, 11.
Jabbari, S., and Innanen, K. A. H., 2013, A framework for linear and nonlinear S-wave and C-wave time-lapse difference AVO: CREWES Research Report, 25, 46, 11.
Jabbari, S., and Innanen, K. A. H., 2013, An analysis of time-lapse phase shifts using perturbation theory: CREWES Research Report, 25, 45, 9.
Khaniani, H., Bancroft, J. C., and von Lunen, E., 2013, Iterative multiparameter elastic waveform inversion using prestack Kirchhoff approximation: CREWES Research Report, 25, 47, 25.
Kim, S., and Innanen, K. A. H., 2013, Linear and nonlinear poroelastic AVO: CREWES Research Report, 25, 48, 28.
Kolb, J. M., and Innanen, K. A. H., 2013, Detection and characterization of anelastic AVF with the Gabor transform: CREWES Research Report, 25, 49, 15.
Lamoureux, M. P., Gibson, P. C., and Margrave, G. F., 2013, Can we see a velocity ramp, in reflection seismic data: CREWES Research Report, 25, 50, 15.
Lawton, D. C., Gallant, E. V., Bertram, M. B., Hall, K. W., and Bertram, K. L., 2013, A new S-wave seismic source: CREWES Research Report, 25, 51, 6.
Lines, L. R., and Vasheghani, F., 2013, Viscosity estimation using seismic inversion: CREWES Research Report, 25, 52, 3.
Lloyd, H. J. E., and Margrave, G. F., 2013, The art of well tying with new MATLAB tools: CREWES Research Report, 25, 53, 12.
Mahmoudian, F., Margrave, G. F., and Wong, J., 2013, Phase and group velocity measurements from physically modeled transmission gathers: CREWES Research Report, 25, 54, 16.
Manning, P. M., and Wong, J., 2013, Finite-difference models with an internal water-bottom boundary condition: CREWES Research Report, 25, 55, 6.
Margrave, G. F., 2013, New features in SYNGRAM: CREWES Research Report, 25, 58, 2.
Margrave, G. F., 2013, Q tools: Summary of CREWES software for Q modelling and analysis: CREWES Research Report, 25, 56, 22.
Margrave, G. F., 2013, Why seismic-to-well ties are difficult: CREWES Research Report, 25, 59, 26.
Margrave, G. F., Innanen, K. A. H., Lawton, D. C., Bancroft, J. C., Lamoureux, M. P., and Lines, L. R., 2013, CREWES 5-year research plan: Towards broadband multicomponent seismology and practical iterated inversion: CREWES Research Report, 25, 57, 25.
McGee, P. E., and Ferguson, R. J., 2013, Parallel VSP experiment: CREWES Research Report, 25, 60, 5.
Moradi, S., and Innanen, K. A. H., 2013, Viscoelastic scattering potentials and inversion sensitivities: CREWES Research Report, 25, 62, 22.
Moradi, S., and Lawton, D. C., 2013, Velocity-stress finite-difference modeling of poroelastic wave propagation: CREWES Research Report, 25, 61, 10.
Nowroozi, D., and Lawton, D. C., 2013, Reservoir simulation for a CO2 sequestration project: CREWES Research Report, 25, 63, 16.
Pan, P., and Innanen, K. A. H., 2013, 1D internal multiple prediction in a multidimensional world: errors and recommendations: CREWES Research Report, 25, 64, 10.
Pan, P., and Innanen, K. A. H., 2013, A review of internal multiple prediction: CREWES Research Report, 25, 66, 10.
Pan, P., and Innanen, K. A. H., 2013, Numerical analysis of 1.5D internal multiple prediction: CREWES Research Report, 25, 65, 12.
Pan, W., and Innanen, K. A. H., 2013, 1D scalar full waveform inversion inferring convergence properties with analytic and numerical examples: CREWES Research Report, 25, 67, 15.
Pan, W., and Innanen, K. A. H., 2013, Poroelastic scattering potentials and inversion sensitivities: CREWES Research Report, 25, 73, 23.
Pan, W., and Innanen, K. A. H., 2013, Thin-bed AVO and AVF continued: CREWES Research Report, 25, 74, 11.
Pan, W., Innanen, K. A. H., and Margrave, G. F., 2013, A comparison of different scaling methods for least-squares inversion/migration: CREWES Research Report, 25, 68, 15.
Pan, W., Innanen, K. A. H., and Margrave, G. F., 2013, Efficient pseudo Gauss-Newton full waveform inversion in the time-ray parameter domain: CREWES Research Report, 25, 69, 36.
Pan, W., Innanen, K. A. H., and Margrave, G. F., 2013, Full waveform inversion with phase encoded pseudo-Hessian: CREWES Research Report, 25, 70, 15.
Pan, W., Innanen, K. A. H., and Margrave, G. F., 2013, Multisource reverse time migration in anisotropic media: CREWES Research Report, 25, 71, 21.
Pan, W., Margrave, G. F., and Innanen, K. A. H., 2013, On the role of the deconvolution imaging condition in full waveform inversion: CREWES Research Report, 25, 72, 19.
Petten, C. C., and Margrave, G. F., 2013, Exploring potential applications of Gaussian Ball Filters in Sharpe's Hollow Cavity Model: CREWES Research Report, 25, 75, 10.
Russell, B. H., 2013, The S function and its geophysical applications: CREWES Research Report, 25, 76, 18.
Smith, A. D., Bourqui, J., Liu, Y., Fear, E. C., and Ferguson, R. J., 2013, Processing of tissue sensing adaptive radar data - an analogue for georadar: CREWES Research Report, 25, 78, 16.
Smith, A. D., Fomel, S., and Ferguson, R. J., 2013, Madagascar - a powerful software package for multidimensional data analysis and reproducible computational experiments: CREWES Research Report, 25, 77, 11.
Stewart, R. R., Kocel, E., Mann, P., and Chang, L., 2013, Searching for the 2010 Haiti earthquake fault: CREWES Research Report, 25, 79, 13.
Wong, J., 2013, Exact formulas for qP, qSv, and SH group velocities in VTI media: CREWES Research Report, 25, 81, 8.
Wong, J., 2013, Seismic physical modeling I: Acquisition of 2D and 3D surveys involving HTI targets: CREWES Research Report, 25, 83, 12.
Wong, J., 2013, Seismic physical modeling II: VVAZ and AVAZ effects observed on reflections from isolated HTI targets: CREWES Research Report, 25, 84, 13.
Wong, J., Bertram, M. B., Bertram, K. L., Gallant, E. V., and Hall, K. W., 2013, Controlling a land vibrator with m-sequences: a field test: CREWES Research Report, 25, 80, 10.
Wong, J., and Manning, P. M., 2013, Operating instructions for mFD2D, MATLAB code for generating seismograms in 2D elastic media: CREWES Research Report, 25, 82, 16.
Yedlin, M. J., Margrave, G. F., and Ben Horin, Y., 2013, Instantaneous frequency computation: theory and practice: CREWES Research Report, 25, 85, 13.
Zubov, V., Margrave, G. F., and Lamoureux, M. P., 2013, Elastodynamic FWI in 2D with partial stacking: CREWES Research Report, 25, 86, 13.