Ajiduah, S. W., and Margrave, G. F., 2017, Waveform seismic AVAZ responses from orthorhombic models: CREWES Research Report, 29, 1, 9.
Al Dulaijan, K. A., and Margrave, G. F., 2017, AVA and AVAZ of 3D pre-stack seismic data in Altamont-Bluebell field: CREWES Research Report, 29, 2, 28.
Al Dulaijan, K. A., Margrave, G. F., and Wong, J., 2017, VSP analysis for azimuthal anisotropy: AVAZ, VVAZ and S-wave splitting in Altamont-Bluebell field: CREWES Research Report, 29, 3, 30.
Bertram, K. L., Hall, K. W., Bertram, M. B., Lawton, D. C., and Innanen, K. A. H., 2017, Field acquisition in 2017: CREWES Research Report, 29, 4, 16.
Bertram, K. L., Innanen, K. A. H., and Wong, J., 2017, Moving forward with physical modeling: CREWES Research Report, 29, 5, 6.
Cary, T. A., Lauer, R., Innanen, K. A. H., and Cho, D., 2017, Procedure for determining geothermal viability: CREWES Research Report, 29, 6, 6.
Chen, H., and Innanen, K. A. H., 2017, Estimation of fracture weaknesses and integrated attenuation factors from azimuthal seismic data: CREWES Research Report, 29, 7, 26.
Chen, H., and Innanen, K. A. H., 2017, Exact solution of reflection coefficient in reservoirs with tilted fractures: CREWES Research Report, 29, 8, 14.
Chen, H., and Innanen, K. A. H., 2017, Linearized reflection coefficient and reflectivity modeling in fractured and attenuative reservoirs: CREWES Research Report, 29, 9, 17.
Cova, R., Henley, D. C., and Innanen, K. A. H., 2017, Computing velocity models for S-wave static corrections using tau-differences in the rayparameter domain: CREWES Research Report, 29, 10, 22.
Cova, R., Law, B. K., and Innanen, K. A. H., 2017, Toward robust multicomponent FWI on land data: handling topography and data conditioning: CREWES Research Report, 29, 11, 18.
CREWES, 2017, Abstract Book: CREWES Research Report, 29, 95.
Eaid, M., and Innanen, K. A. H., 2017, Efficiency in multiple prediction, leveraging the CMP gather: CREWES Research Report, 29, 13, 19.
Eaid, M., Li, J., and Innanen, K. A. H., 2017, A coupled DAS shaped-fibre and 3D elastic finite difference wave model: CREWES Research Report, 29, 12, 19.
Ellison, D. K., and Cameron, G., 2017, Eliminating time statics from depth imaging: CREWES Research Report, 29, 14, 8.
Fathalian, A., and Innanen, K. A. H., 2017, Approximation constant-Q reverse time migration in the time domain: Unsplit-field PML formulation: CREWES Research Report, 29, 15, 23.
Fathalian, A., and Innanen, K. A. H., 2017, Viscoacoustic VTI and TTI wave equations and their application for anisotropic reverse time migration: Constant-Q approximation: CREWES Research Report, 29, 16, 18.
Geng, Y., Innanen, K. A. H., and Pan, W., 2017, Nonlinear multi-parameter full waveform inversion based on truncated Newton method: CREWES Research Report, 29, 17, 31.
Geng, Y., Innanen, K. A. H., and Pan, W., 2017, Subspace method for acoustic multi-parameter FWI: CREWES Research Report, 29, 18, 17.
Gordon, A., and Lawton, D. C., 2017, Zero offset VSP processing of fiber optic cable (DAS) and geophone array at the CaMI Field Research Station: CREWES Research Report, 29, 19, 27.
Guarido, M., Cova, R., Romahn, S. J., Lines, L. R., Ferguson, R. J., and Innanen, K. A. H., 2017, Fast waveform inversion strategies applied to Hussar: CREWES Research Report, 29, 21, 21.
Guarido, M., Lines, L. R., and Ferguson, R. J., 2017, Forward modeling-free full waveform inversion with well calibration: CREWES Research Report, 29, 22, 12.
Guarido, M., Romahn, S. J., Lines, L. R., Ferguson, R. J., and Innanen, K. A. H., 2017, Comparing the RTM and PSPI migrations to estimate the gradient using the fast waveform inversion: CREWES Research Report, 29, 20, 14.
Guevara, S. E., and Margrave, G. F., 2017, Attenuation of P and S waves in the near surface using uphole data: CREWES Research Report, 29, 23, 1.
Guevara, S. E., and Margrave, G. F., 2017, On S-waves generated by conventional sources: a synthetic experiment: CREWES Research Report, 29, 24, 1.
Hall, K. W., 2017, Everything you never wanted to know about IBM and IEEE floating point numbers: CREWES Research Report, 29, 25, 16.
Hall, K. W., Lawton, D. C., Daley, T., Freifeld, B., and Cook, P., 2017, Source distance and source effort on DAS data: CREWES Research Report, 29, 26, 15.
Hall, K. W., and Margrave, G. F., 2017, CREWES Matlab toolbox SEG-Y input/output update: CREWES Research Report, 29, 27, 25.
Hardeman-Vooys, H. K., and Lamoureux, M. P., 2017, Accuracy of numerical solutions to the elastic wave equation in multiple dimensions: CREWES Research Report, 29, 28, 20.
Hardeman-Vooys, H. K., McDonald, M. A. D., Daley, T., Freifeld, B., Lamoureux, M. P., and Lawton, D. C., 2017, Vertical seismic profiling using distributed acoustic sensing: CREWES Research Report, 29, 30, 6.
Hardeman-Vooys, H. K., McDonald, M. A. D., and Lamoureux, M. P., 2017, Scale-invariant image-recognition using convolutional neural networks and wavelet analysis: CREWES Research Report, 29, 29, 17.
Henley, D. C., 2017, A shift in time: time-lapse detection using interferometry: CREWES Research Report, 29, 31, 40.
Henley, D. C., 2017, A tale of two transforms: 3D raypath interferometry: CREWES Research Report, 29, 32, 38.
Igonin, N., and Innanen, K. A. H., 2017, Applications of FWI to the microseismic source problem: CREWES Research Report, 29, 33, 14.
Igonin, N., and Innanen, K. A. H., 2017, Toward full-waveform inversion for source location and velocity model: gradient and Hessian: CREWES Research Report, 29, 34, 14.
Innanen, K. A. H., 2017, Seismic reflection and transmission within an extended scatterer: CREWES Research Report, 29, 36, 12.
Innanen, K. A. H., 2017, Seismic reflections from space-, time- and mixed-boundaries: CREWES Research Report, 29, 37, 14.
Innanen, K. A. H., and Eaid, M., 2017, Design of DAS fibres for elastic wave mode discrimination: CREWES Research Report, 29, 35, 17.
Innanen, K. A. H., Mahmoudian, F., and Eaid, M., 2017, Detection and characterization of microseismic sources with shaped DAS fibre: CREWES Research Report, 29, 38, 8.
Isaac, J. H., and Lawton, D. C., 2017, A summary of surface seismic reflection data acquired at the Field Research Station near Brooks, Alberta: CREWES Research Report, 29, 39, 16.
Iverson, A., and Innanen, K. A. H., 2017, Inverse scattering series internal multiple prediction with depth dependent scalars: CREWES Research Report, 29, 42, 15.
Iverson, A., Innanen, K. A. H., and Trad, D. O., 2017, 1.5D tau-p internal multiple prediction in Seismic Unix: CREWES Research Report, 29, 40, 9.
Iverson, A., Innanen, K. A. H., and Trad, D. O., 2017, Internal multiple prediction in the time and offset domains: CREWES Research Report, 29, 41, 13.
Keating, S., and Innanen, K. A. H., 2017, FWI with DFP optimization using an approximate low resolution Hessian: CREWES Research Report, 29, 43, 6.
Keating, S., and Innanen, K. A. H., 2017, Multi-resolution Newton optimization in full waveform inversion: CREWES Research Report, 29, 44, 12.
Keating, S., and Innanen, K. A. H., 2017, Using the parallel MUMPS solver for frequency domain full waveform inversion: CREWES Research Report, 29, 45, 4.
Khaniani, H., Moradi, S., and Trad, D. O., 2017, A (full) waveform inversion based on P- and S- wave separation: CREWES Research Report, 29, 46, 18.
Khaniani, H., and Trad, D. O., 2017, Inclusion of spatial sampling and migration artifacts in AVO/Az analysis using Kirchhoff approximation: CREWES Research Report, 29, 47, 22.
Lamoureux, M. P., and Hardeman-Vooys, H. K., 2017, Particle swarms for numerical wave equation: CREWES Research Report, 29, 48, 17.
Law, B. K., and Trad, D. O., 2017, Comparison of refraction inversion methods: CREWES Research Report, 29, 49, 22.
Law, B. K., and Trad, D. O., 2017, Comparison of travel time computation and ray tracing methods: CREWES Research Report, 29, 50, 19.
Lawton, D. C., Bertram, M. B., Saeedfar, A. A., Macquet, M., Hall, K. W., Bertram, K. L., Innanen, K. A. H., and Isaac, J. H., 2017, DAS and seismic installations at the CaMI Field Research Station, Newell County, Alberta: CREWES Research Report, 29, 51, 10.
Li, J., Innanen, K. A. H., Pan, W., and Geng, Y., 2017, Frequency domain elastic FWI for VTI media: CREWES Research Report, 29, 52, 12.
Li, J., Innanen, K. A. H., and Wang, B., 2017, Second order H-PML for anisotropic forward wavefield simulation: CREWES Research Report, 29, 53, 12.
Lines, L. R., and Treitel, S., 2017, Cascaded deconvolution filters: CREWES Research Report, 29, 54, 14.
Lv, S., and Innanen, K. A. H., 2017, Characterizing intrinsic and stratigraphic Q in VSP data with information measures, Part II: CREWES Research Report, 29, 55, 18.
Macquet, M., and Lawton, D. C., 2017, Reservoir simulations and feasibility study for seismic monitoring at CaMI.FRS: CREWES Research Report, 29, 56, 26.
Mahmoudian, F., Josh, C., Zhou, H., and DeMeersman, K., 2017, A model-base azimuthal AVO inversion for anisotropy: CREWES Research Report, 29, 57, 1.
Margrave, G. F., 2017, Quantifying Footprint: Objective measurements of acquisition footprint.: CREWES Research Report, 29, 58, 15.
Margrave, G. F., 2017, Simultaneous measurement of nonstationary phase and delay: CREWES Research Report, 29, 59, 15.
Mills, A., and Innanen, K. A. H., 2017, Near-surface seismic characterization from a sparsely sampled field data set: CREWES Research Report, 29, 60, 26.
Monsegny, J. E., 2017, Bi-objective optimization for seismic survey design: CREWES Research Report, 29, 61, 11.
Moradi, S., and Trad, D. O., 2017, Quantum computation with applications in seismic problems: CREWES Research Report, 29, 62, 28.
Pan, W., Geng, Y., and Innanen, K. A. H., 2017, Interparameter tradeoffs quantification and reduction in isotropic-elastic FWI: synthetic experiments and real dataset application: CREWES Research Report, 29, 64, 48.
Pan, W., Innanen, K. A. H., and Geng, Y., 2017, Elastic full-waveform inversion and parameterization analysis applied to walk-away vertical seismic profiling data for unconventional (heavy oil) reservoir char: CREWES Research Report, 29, 63, 51.
Romahn, S. J., Guarido, M., and Innanen, K. A. H., 2017, Comparison between RTM gradient and PSPI gradient in the process of FWI: CREWES Research Report, 29, 65, 14.
Romahn, S. J., and Innanen, K. A. H., 2017, The seismic physical modelling laboratory as a tool for design and appraisal of FWI methods: CREWES Research Report, 29, 66, 22.
Russell, B. H., 2017, Least mean squares (LMS) applications in geophysics: CREWES Research Report, 29, 67, 17.
Spackman, T. W., and Lawton, D. C., 2017, Seismic monitoring with continuous seismic sources: CREWES Research Report, 29, 68, 12.
Sun, J., Innanen, K. A. H., Trad, D. O., and Geng, Y., 2017, Multicomponent inverse scattering series internal multiple prediction Part I: Analytical analysis of input preparation: CREWES Research Report, 29, 69, 15.
Sun, J., Innanen, K. A. H., Trad, D. O., and Geng, Y., 2017, Multicomponent inverse scattering series internal multiple prediction Part II: Synthetic application: CREWES Research Report, 29, 70, 20.
Trad, D. O., 2017, Mismatches between physics and operators for Least Squares Migration: comparison between Kirchhoff and RTM: CREWES Research Report, 29, 71, 25.
Weir, R., Lawton, D. C., and Lines, L. R., 2017, The Duvernay Formation-the application of simultaneous inversion for reservoir characterization: CREWES Research Report, 29, 72, 25.
Yang, L., Trad, D. O., and Pan, W., 2017, Comparison between least-squares reverse time migration and full-waveform inversion: CREWES Research Report, 29, 73, 11.