# Difference between revisions of "Category:Publications"

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− | SEG's [http://www.seg.org/resources/publications publications program] helps the Society fulfill its mission of promoting the science of geophysics and the professional development of geoscientists by disseminating information about geophysical research and applications through a variety of channels. | + | SEG's [http://www.seg.org/resources/publications publications program] helps the Society fulfill its mission of promoting the science of geophysics and the professional development of geoscientists by disseminating information about geophysical research and applications through a variety of channels. These articles represent a selection of products produced by Publications. |

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− | These articles represent a selection of products produced by Publications |

## Latest revision as of 16:10, 13 April 2015

SEG's publications program helps the Society fulfill its mission of promoting the science of geophysics and the professional development of geoscientists by disseminating information about geophysical research and applications through a variety of channels. These articles represent a selection of products produced by Publications.

## Pages in category "Publications"

The following 200 pages are in this category, out of 699 total.

(previous page) (next page)### A

- Absorption loss and transmission loss
- Absorption loss and transmission loss/en
- Absorption loss and transmission loss/es
- Accuracy of normal-moveout calculations
- Acquisition direction for marine 3D surveys
- Adachi’s method
- User:Ageary/Introduction
- User:Ageary/Theory of seismic waves
- Alias filters
- Aliasing
- Aliasing/en
- Aliasing/es
- All-pass filter
- All-pass filter/en
- All-pass filter/es
- Alternate approaches to phase rotation
- Alternate approaches to phase rotation/en
- Alternate approaches to phase rotation/es
- Amplitude variation with offset for seafloor multiples
- Amplitude/energy of reflections and multiples
- Analog linear time-invariant systems
- Analog linear time-invariant systems/en
- Analog linear time-invariant systems/es
- Analog prediction error
- Analog prediction error/en
- Analog prediction error/es
- Analog transfer functions
- Analog transfer functions/en
- Analog transfer functions/es
- Analogy
- Analogy/en
- Analogy/es
- Apparent-velocity filtering
- Appendix A: Exercise
- Appendix A: Exercise/en
- Appendix A: Exercise/es
- Appendix B: Exercises
- Appendix B: Exercises/en
- Appendix B: Exercises/es
- Appendix C: Exercises
- Appendix C: Exercises/en
- Appendix C: Exercises/es
- Appendix D: Exercises
- Appendix D: Exercises/en
- Appendix D: Exercises/es
- Appendix E: Exercises
- Appendix E: Exercises/en
- Appendix E: Exercises/es
- Appendix F: Exercises
- Appendix F: Exercises/en
- Appendix F: Exercises/es
- Appendix G: Exercises
- Appendix G: Exercises/en
- Appendix G: Exercises/es
- Appendix H: Exercises
- Appendix H: Exercises/en
- Appendix H: Exercises/es
- Appendix I: Exercises
- Appendix I: Exercises/en
- Appendix I: Exercises/es
- Appendix J: Exercises
- Appendix J: Exercises/en
- Appendix J: Exercises/es
- Appendix K: Exercises
- Appendix K: Exercises/en
- Appendix K: Exercises/es
- Appendix L: Design of Hilbert transforms
- Appendix L: Design of Hilbert transforms/en
- Appendix L: Design of Hilbert transforms/es
- Appendix M: Exercises
- Appendix M: Exercises/en
- Appendix M: Exercises/es
- Appendix N: The energy-delay theorem
- Appendix N: The energy-delay theorem/en
- Appendix N: The energy-delay theorem/es
- Appendix O: Exercises
- Appendix O: Exercises/en
- Appendix O: Exercises/es
- Attenuation
- Attenuation calculations
- Attenuation of air waves
- Attenuation/en
- Attenuation/es
- Autocorrelation - book
- Autocorrelation - book/en
- Autocorrelation - book/es
- AVO versus AVA and effect of velocity gradient

### B

- Band-limiting root approximation
- Band-limiting root approximation/en
- Band-limiting root approximation/es
- Barry’s delay-time refraction interpretation method
- Bin size in marine work
- Binary numbers
- Blondeau weathering corrections
- Boundary conditions at different types of interfaces
- Boundary conditions in terms of potential functions

### C

- Calculating crosscorrelation and autocorrelation
- Calculation of inverse filters
- Calculation of reflector depths and dips
- Canonical representation
- Canonical representation – Chapter 10
- Canonical representation – Chapter 10/en
- Canonical representation – Chapter 10/es
- Canonical representation/en
- Canonical representation/es
- Causality and stability of analog systems
- Causality and stability of analog systems/en
- Causality and stability of analog systems/es
- Causality and stability of digital systems
- Causality and stability of digital systems/en
- Causality and stability of digital systems/es
- Causes of high-frequency losses
- Characteristics of different types of events and noise
- Checking solutions
- Circle shooting
- Coherence - book
- Coherence - book/en
- Coherence - book/es
- Coherence cube (C3)
- Coherence cube (C3)/en
- Coherence cube (C3)/es
- Comparison of refraction interpretation methods
- Complex coefficient of reflection
- Complex-trace analysis
- Convolution - book
- Convolution - book/en
- Convolution - book/es
- Convolution and correlation calculations
- Convolutional model
- Convolutional model in the frequency domain
- Convolutional model in the frequency domain/en
- Convolutional model in the frequency domain/es
- Convolutional model/en
- Convolutional model/es
- Cross-dip

### D

- Deconvolution methods
- Deconvolution: Einstein or predictive?
- Deconvolution: Einstein or predictive?/en
- Deconvolution: Einstein or predictive?/es
- Deducing fault geometry from well data
- Delay in general
- Delay in general/en
- Delay in general/es
- Delay time
- Delay: Minimum, mixed, and maximum
- Delay: Minimum, mixed, and maximum/en
- Delay: Minimum, mixed, and maximum/es
- Dependence of resolvable limit on frequency
- Dependence of velocity-depth curves on geology
- Depth and dip calculations using velocity functions
- Derivative and integral operators
- Destructive and constructive interference for a wedge
- Determining lithology from well-velocity surveys
- Determining reflector location
- Determining static corrections from first breaks
- Determining the nature of flow structures
- Determining vibroseis parameters
- Differential moveout between primary and multiple
- Diffraction
- Diffraction from a half-plane
- Diffraction traveltime curves
- Diffraction/en
- Diffraction/es
- Digital calculations
- Digital filtering
- Digital filtering/en
- Digital filtering/es
- Digital Imaging and Deconvolution: The ABCs of Seismic Exploration and Processing
- Digital Imaging and Deconvolution: The ABCs of Seismic Exploration and Processing/en
- Digital Imaging and Deconvolution: The ABCs of Seismic Exploration and Processing/es
- Digital linear time-invariant systems
- Digital linear time-invariant systems/en
- Digital linear time-invariant systems/es
- Digital prediction
- Digital prediction error
- Digital prediction error/en
- Digital prediction error/es
- Digital prediction/en
- Digital prediction/es
- Digital processing
- Digital processing/en
- Digital processing/es
- Digital transfer functions
- Digital transfer functions/en
- Digital transfer functions/es
- Digitization
- Digitization/en
- Digitization/es
- Dip, cross-dip, and angle of approach
- Directional geophone responses to different waves
- Directivities of linear arrays and linear sources
- Directivity of a harmonic source plus ghost
- Directivity of a source plus its ghost
- Directivity of linear sources
- Distinguishing horizontal/vertical discontinuities
- Disturbance produced by a point source
- Diving waves
- Dominant frequencies of marine sources
- Dual-sensor wavelet estimation
- Dual-sensor wavelet estimation/en