- Cerveny, V., Klimes, L. & Psencik, I. (1988):
Complete seismic-ray tracing in three-dimensional structures.
In: Doornbos, D.J. (ed.),
*Seismological Algorithms*, pp. 89-168, Academic Press, New York.

Model with a lenticular inclusion is designed as an example of constructing a velocity model. - Klimes, L. & Kvasnicka, M. (1994):
3-D network ray tracing.
*Geophys. J. int.*,**116**, 726-738.

Calculation of travel times by packages NET and CRT. - Klimes, L. (1995):
Examples of seismic models.
In:
*Seismic Waves in Complex 3-D Structures, Report 3*, Dep. Geophys., Charles Univ., Prague, pp. 5-35, online at "http://sw3d.cz".

Detailed description of the model with a lenticular inclusion and of input data. - Bulant, P. (1996):
Two-point ray tracing and controlled
initial-value ray tracing in 3-D heterogeneous block structures.
In: Seismic Waves in Complex 3-D Structures, Report 4, pp. 61-75,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Calculation of two-point diffracted rays in the model with a lenticular inclusion. - Bulant, P. (1996):
Two-point ray tracing in 3-D.
*Pure appl. Geophys.*,**148**, 421-447.

Two-point ray tracing in the model with a lenticular inclusion. - Bulant, P. (1997):
3-D two-point ray tracing
in pictures.
In: Seismic Waves in Complex 3-D Structures, Report 6, pp. 63-70,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Calculation of weakly refracted two-point rays in the model with a lenticular inclusion. - Bulant, P. (1997):
Calculation of multivalued
ray-theory travel times at nodes of 3-D grids.
In: Seismic Waves in Complex 3-D Structures, Report 6, pp. 71-74,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Calculation of multivalued ray-theory travel times at nodes of 3-D grids by the interpolation within ray tubes in the model with a lenticular inclusion. - Bulant, P. (1999):
Two-point ray-tracing and controlled initial-value ray-tracing
in 3-D heterogeneous block structures.
*J. seism. Explor.*,**8**, 57-75.

Calculation of two-point diffracted rays in the model with a lenticular inclusion.

- Klimes, L. (1995):
Examples of seismic models.
In:
*Seismic Waves in Complex 3-D Structures, Report 3*, Dep. Geophys., Charles Univ., Prague, pp. 5-35, online at "http://sw3d.cz".

Detailed description of the model with homogeneous layers and of input data.

- Klimes, L. (1995):
Examples of seismic models.
In:
*Seismic Waves in Complex 3-D Structures, Report 3*, Dep. Geophys., Charles Univ., Prague, pp. 5-35, online at "http://sw3d.cz".

Detailed description of salt dome models SD1 and SD2 and of input data.

- Bulant, P. and Klimes, L. (1996):
Examples of seismic models. Part 2.
In:
*Seismic Waves in Complex 3-D Structures, Report 4*, Dep. Geophys., Charles Univ., Prague, pp. 39-52, online at "http://sw3d.cz".

Detailed description of the model with interface slitted by a curved vertical fault and of input data.

- Klimes, L. (1995):
Examples of seismic models.
In:
*Seismic Waves in Complex 3-D Structures, Report 3*, Dep. Geophys., Charles Univ., Prague, pp. 5-35, online at "http://sw3d.cz".

Detailed description of the Western Bohemia a priori model and of input data. - Bulant, P. (1996):
Two-point ray tracing in 3-D.
*Pure appl. Geophys.*,**148**, 421-447.

Two-point ray tracing in the Western Bohemia a priori model. - Klimes, L. (1996):
Correlation function
of a self-affine random medium
In: Seismic Waves in Complex 3-D Structures, Report 4,
pp. 25-38, Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Estimation of correlation functions in Western Bohemia region using the travel times from refraction measurements. First version of the paper. - Klimes, L. (2001):
Estimating the correlation function
of a self-affine random medium
In: Seismic Waves in Complex 3-D Structures, Report 11,
pp. 111-131, Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Estimation of correlation functions in Western Bohemia region using the travel times from refraction measurements. Revised version of the paper. - Klimes, L. (2002):
Estimating the correlation function
of a self-affine random medium
*Pure appl. Geophys.*,**159**, 1833-1853.

Estimation of correlation functions in Western Bohemia region using the travel times from refraction measurements. Final version of the paper.

- Bulant, P. and Klimes, L. (1996):
Examples of seismic models. Part 2.
In:
*Seismic Waves in Complex 3-D Structures, Report 4*, Dep. Geophys., Charles Univ., Prague, pp. 39-52, online at "http://sw3d.cz".

Detailed description of this velocity model and of input data. - Bulant, P. (1996):
Two-point ray tracing and controlled
initial-value ray tracing in 3-D heterogeneous block structures.
In: Seismic Waves in Complex 3-D Structures, Report 4, pp. 61-75,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Two-point ray tracing of reflected rays in the model. - Bulant, P. (1997):
Recent development of the shooting
algorithm.
In: Seismic Waves in Complex 3-D Structures, Report 6, pp. 55-62,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Two-point ray tracing of reflected rays in the model, comparison of different versions of the ray tracing code. - Bulant, P. (1999):
Two-point ray-tracing and controlled initial-value ray-tracing
in 3-D heterogeneous block structures.
*J. seism. Explor.*,**8**, 57-75.

Two-point ray tracing in this velocity model.

- Bulant, P. and Klimes, L. (1996):
Examples of seismic models. Part 2:
In: Seismic Waves in Complex 3-D Structures, Report 4, pp. 39-52,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Description of two smooth 2-D continuous INRIA versions of the Marmousi model, detailed description of input data for package MODEL. - Klimes, L. (1996):
Travel times in the INRIA Marmousi models.
In:
*Seismic Waves in Complex 3-D Structures, Report 4*, Dep. Geophys., Charles Univ., Prague, pp. 53-60, online at "http://sw3d.cz".

Ray tracing and calculation of travel times in two continuous INRIA versions of the Marmousi model. Demonstration of ray chaos. - Klimes, L. (2000):
Smoothing the Marmousi model for Gaussian-packet migrations.
In:
*Seismic Waves in Complex 3-D Structures, Report 10*, Dep. Geophys., Charles Univ., Prague, pp. 63-74, online at "http://sw3d.cz".

Preparation of a 2-D velocity model by smoothing the discrete Marmousi model using Sobolev scalar products. - Zacek, K. (2002):
Smoothing the Marmousi model.
*Pure appl. Geophys.*,**159**, 1507-1526.

Preparation of a 2-D velocity model by smoothing the discrete Marmousi model using Sobolev scalar products. - Zacek, K. (2005):
Gaussian packet prestack depth migration.
In:
*Seismic Waves in Complex 3-D Structures, Report 15*, Dep. Geophys., Charles Univ., Prague, pp. 29-48, online at "http://sw3d.cz".

Gaussian packet prestack depth migration with uniform Gaussian packets in the smooth 2-D velocity model. - Zacek, K. (2006):
Optimization of the shape of Gaussian beams.
*Stud. geophys. geod.*,**50**, 349-366.

Optimization of the shape of Gaussian beams in the smooth 2-D velocity model. - Zacek, K. (2006):
Decomposition of the wave field into optimized Gaussian packets.
*Stud. geophys. geod.*,**50**, 367-380.

Decomposition of the wave field into optimized Gaussian packets in the smooth 2-D velocity model. - Bucha, V. (2008):
Gaussian packet prestack depth migration.
Part 2: Optimized Gaussian packets.
In:
*Seismic Waves in Complex 3-D Structures, Report 18*, Dep. Geophys., Charles Univ., Prague, pp. 129-138, online at "http://sw3d.cz".

Gaussian packet prestack depth migration with optimized Gaussian packets in the smooth 2-D velocity model. -
Bulant, P. (2012):
Interpolation within ray tubes - state of the art.
In:
*Seismic Waves in Complex 3-D Structures, Report 22*, Dep. Geophys., Charles Univ., Prague, pp. 169-182, online at "http://sw3d.cz".

Interpolation of travel times in the model.

- Klimes, L. (1996):
Synthetic seismograms in 2-D model UNCONFORMITY.
In:
*Seismic Waves in Complex 3-D Structures, Report 4*, Dep. Geophys., Charles Univ., Prague, pp. 77-89, online at "http://sw3d.cz".

Ray-theory synthetic seismograms in 2-D model UNCONFORMITY without attenuation and with attenuation. - Bucha, V. and Klimes, L. (1999):
Finite differences above the MODEL package.
In:
*Seismic Waves in Complex 3-D Structures, Report 8*, Dep. Geophys., Charles Univ., Prague, pp. 171-192, online at "http://sw3d.cz".

Comparison of ray-theory and finite-difference synthetic seismograms in 2-D model UNCONFORMITY without attenuation. - Cerveny, V., Klimes, L. & Psencik, I. (2007):
Seismic ray method: Recent developments.
*Advances in Geophysics*,**48**, 1-126.

Ray-theory synthetic seismograms in 2-D model UNCONFORMITY without attenuation and with attenuation (Fig. 40).

- Klimes, L. (1998):
Comparison of ray-matrix and finite-difference methods
in a simple 1-D model.
In:
*Seismic Waves in Complex 3-D Structures, Report 7*, Dep. Geophys., Charles Univ., Prague, pp. 169-180, online at "http://sw3d.cz".

Comparison of ray-matrix and finite-difference synthetic seismograms in simple 1-D model RM. - Cerveny, V., Klimes, L. & Psencik, I. (2007):
Seismic ray method: Recent developments.
*Advances in Geophysics*,**48**, 1-126.

Comparison of ray-matrix and finite-difference synthetic seismograms in simple 1-D model RM (Fig. 41).

- Psencik, I. (1998):
Quasi-shear waves in the zero-order approximation
of the quasi-isotropic approach. Preliminary results
In: Seismic Waves in Complex 3-D Structures, Report 7, pp. 225-266,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Comparison of quasi-isotropic coupling-ray-theory synthetic seismograms and particle motion diagrams with isotropic and anisotropic ray theory seismograms and particle motions in weakly anisotropic models EWA and WA. - Bulant, P. & Klimes, L. (1998):
Coupling ray theory in weakly
anisotropic media.
In: Seismic Waves in Complex 3-D Structures, Report 7, pp. 215-223,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Coupling-ray-theory synthetic seismograms in model QI. - Psencik, I. & Dellinger, J. (2000):
Quasi-shear waves in inhomogeneous weakly anisotropic media by the
quasi-isotropic approach: a model study
In: Seismic Waves in Complex 3-D Structures, Report 10, pp. 203-225,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Description of weakly anisotropic model QI (model WA rotated by 45 degrees). Comparison of quasi-isotropic coupling-ray-theory synthetic seismograms and reflectivity synthetic seismograms in weakly anisotropic model QI. - P. Bulant & L. Klimes (2001):
Coupling ray theory and its quasi-isotropic approximations.

*Expanded Abstracts of 71st Annual Meeting (San Antonio)*, pp. 141-144, Soc. Explor. Geophysicists, Tulsa.

Coupling-ray-theory syntetic seismograms in model QI. - Bulant, P. & Klimes, L. (2001):
Numerical algorithm of the coupling
ray theory in weakly anisotropic media.
In: Seismic Waves in Complex 3-D Structures, Report 11, pp. 263-277,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Comparison of coupling-ray-theory synthetic seismograms calculated along isotropic reference rays and quasi-isotropic coupling-ray-theory synthetic seismograms in weakly anisotropic model QI. - Psencik, I. & Dellinger, J. (2001):
Quasi-shear waves in inhomogeneous weakly anisotropic media
by the quasi-isotropic approach: a model study.
*Geophysics*,**66**, 308-319.

Description of weakly anisotropic model QI (model WA rotated by 45 degrees). Comparison of quasi-isotropic coupling-ray-theory synthetic seismograms and reflectivity synthetic seismograms in weakly anisotropic model QI. - Bulant, P. & Klimes, L. (2002):
Numerical algorithm of the coupling ray theory in weakly anisotropic media.
*Pure appl. Geophys.*,**159**, 1419-1435.

Comparison of coupling-ray-theory synthetic seismograms calculated along isotropic reference rays and quasi-isotropic coupling-ray-theory synthetic seismograms in weakly anisotropic model QI. - Klimes, L. & Bulant, P. (2002):
Errors due to the common ray approximations of the coupling ray theory.
In: Seismic Waves in Complex 3-D Structures, Report 12,
Dep. Geophys., Charles Univ., Prague, pp. 185-212, online at "http://sw3d.cz".

Synthetic seismograms of the coupling ray theory and its quasi-isotropic approximations in models QI, QI2 and QI4. - Klimes, L. (2003):
Common ray tracing and dynamic ray tracing for S waves
in a smooth elastic anisotropic medium.
In: Seismic Waves in Complex 3-D Structures, Report 13,
Dep. Geophys., Charles Univ., Prague, pp. 119-141, online at "http://sw3d.cz".

Calculation of travel times of anisotropic common rays in models QI, QI2 and QI4. - Klimes, L. & Bulant, P. (2004):
Errors due to the common ray approximations of the coupling ray theory.
*Stud. geophys. geod.*,**48**, 117-142.

Coupling-ray-theory synthetic seismograms calculated along isotropic reference rays in weakly anisotropic models QI, QI2, QI4. Comparisons with different quasi-isotropic approximations of the coupling ray theory. - Cerveny, V., Klimes, L. & Psencik, I. (2007):
Seismic ray method: Recent developments.
*Advances in Geophysics*,**48**, 1-126.

Example of development of S-wave splitting with increasing anisotropy in models QIH, QI, QI2, QI4 (Fig. 21). Comparison of quasi-isotropic coupling-ray-theory synthetic seismograms and Chebyshev spectral method synthetic seismograms in weakly anisotropic model QI (Fig. 22). - Bulant, P. & Klimes, L. (2008):
Numerical comparison of the isotropic-common-ray
and anisotropic-common-ray approximations of the coupling ray theory.
*Geophys. J. int.*,**175**, 357-374.

Coupling-ray-theory synthetic seismograms calculated along common S-wave anisotropic reference rays in weakly anisotropic models QI, QI2, QI4. Comparison with coupling-ray-theory synthetic seismograms calculated along isotropic reference rays. - Bulant, P., Psencik, I., Farra, V., & Tessmer, E. (2011):
Comparison of the anisotropic-common-ray
approximation of the coupling ray theory for S waves
with the Fourier pseudo-spectral method
in weakly anisotropic models.
In: Seismic Waves in Complex 3-D Structures, Report 21,
Dep. Geophys., Charles Univ., Prague, pp. 167-183, online at "http://sw3d.cz".

Calculation of coupling-ray-theory synthetic seismograms in models QI, QI4, SC1_I, SC1_II, KISS and ORT, comparison with Fourier pseudospectral method and with seismograms calculated along the first-order rays. -
Klimes, L. & Bulant, P. (2012):
Single-frequency approximation of the coupling ray theory.
In:
*Seismic Waves in Complex 3-D Structures, Report 22*, Dep. Geophys., Charles Univ., Prague, pp. 143-167, online at "http://sw3d.cz".

Calculation of single-frequency approximation coupling-ray-theory synthetic seismograms in models QIH, QI, QI2, QI4, SC1_I, SC1_II, KISS and ORT. -
Klimes, L. & Bulant, P. (2013):
Interpolation of the coupling-ray-theory
S-wave Green tensor within ray cells.
In:
*Seismic Waves in Complex 3-D Structures, Report 23*, Dep. Geophys., Charles Univ., Prague, pp. 203-218, online at "http://sw3d.cz".

Calculation of two prevailing-frequency approximation of the coupling-ray theory Green tensors along common anisotropic S-wave rays, calculation of synthetic seismograms along the rays, interpolation of travel times between the rays in models QIH, QI, QI2, QI4, SC1_I, SC1_II, KISS and ORT. -
Bulant, P. & Klimes, L. (2014):
Anisotropic-ray-theory geodesic deviation and two-point
ray tracing through a split intersection singularity.
*Seismic Waves in Complex 3-D Structures*,**24**, 179-187, (ISSN 2336-3827, online at "http://sw3d.cz").

Two-point ray tracing of anisotropic-ray-theory S-wave rays in model SC1_II with a split intersection singularity. -
Klimes, L. & Bulant, P. (2014):
Anisotropic-ray-theory rays in velocity model SC1_II with
a split intersection singularity.
*Seismic Waves in Complex 3-D Structures*,**24**, 189-205, (ISSN 2336-3827, online at "http://sw3d.cz").

Calculation of anisotropic-ray-theory S-wave rays in model SC1_II with a split intersection singularity. -
Klimes, L. & Bulant, P. (2014):
Prevailing-frequency approximation of the coupling ray theory
for S waves along the SH and SV reference rays in a transversely
isotropic medium.
*Seismic Waves in Complex 3-D Structures*,**24**, 165-177, (ISSN 2336-3827, online at "http://sw3d.cz").

Calculation of the prevailing-frequency approximation of the coupling-ray theory seismograms along the S1 and S2 anisotropic- ray-theory rays and their comparison with the Fourier pseudo-spectral method in models QI2 and QI4.

- Bulant, P. & Klimes, L. (1998):
Interpolation of ray-theory
travel times within ray cells.
In: Seismic Waves in Complex 3-D Structures, Report 7, pp. 17-32,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Multivalued travel-time maps in model 98. - Bulant, P. and Klimes, L. (1998):
Computations in the model composed during the 1998 consortium meeting.
In:
*Seismic Waves in Complex 3-D Structures, Report 7*, Dep. Geophys., Charles Univ., Prague, pp. 33-56, online at "http://sw3d.cz".

Construction of the velocity model. Calculation of travel times by interpolation within ray cells. Two-point ray tracing. Ray-theory synthetic seismograms.

- Klimes, L. (1999):
Analytical one-way plane-wave
solution in the 1-D anisotropic "twisted crystal" model.
In: Seismic Waves in Complex 3-D Structures, Report 8, pp. 103-118,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Exact analytical expressions for propagator matrices of plane S waves in the "simplified twisted crystal" model, comparison with analytical solutions for isotropic, anisotropic and coupling-ray theories. - Bulant, P., Klimes, L. & Psencik, I. (1999):
Comparison of ray methods with
the exact solution in the 1-D anisotropic "twisted crystal" model.
In: Seismic Waves in Complex 3-D Structures, Report 8, pp. 119-126,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Numerical comparison of isotropic, anisotropic, coupling-ray and quasi-isotropic approximation of the coupling ray theories in the "simplified twisted crystal" model. - Klimes, L. (2004):
Analytical one-way plane-wave solution
in the 1-D anisotropic "simplified twisted crystal" model.
*Stud. geophys. geod.*,**48**, 75-96.

Exact analytical expressions for propagator matrices of plane S waves in the "simplified twisted crystal" model, comparison with analytical solutions for isotropic, anisotropic and coupling-ray theories. - Bulant, P., Klimes, L., Psencik, I. & Vavrycuk, V. (2004):
Comparison of ray methods with the exact solution in the 1-D anisotropic "simplified twisted crystal" model.
*Stud. geophys. geod.*,**48**, 675-688.

Numerical comparison of isotropic, anisotropic, coupling-ray and quasi-isotropic approximation of the coupling ray theories in the "simplified twisted crystal" model. - Bulant, P. & Klimes, L. (2004):
Comparison of quasi-isotropic approximations
of the coupling ray theory with the exact solution
in the 1-D anisotropic "oblique twisted crystal" model.
*Stud. geophys. geod.*,**48**, 97-116.

Errors of different quasi-isotropic approximations in the "oblique twisted crystal model".

- Klimes, L. & Kvasnicka, M. (1994):
3-D network ray tracing.
*Geophys. J. int.*,**116**, 726-738.

Calculation of travel times by packages NET and CRT.

- Klimes, L. (1997):
Correlation functions of random
media.
In: Seismic Waves in Complex 3-D Structures, Report 6,
pp. 25-40, Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Example of Laguerr random medium (Fig. 8). -
Klimes, L. (2001):
Correlation functions of random media.
In: Seismic Waves in Complex 3-D Structures, Report 11,
pp. 91-109, Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Example of Kummer random medium (Fig. 8). - Klimes, L. (2002):
Correlation functions of random media.
*Pure appl. Geophys.*,**159**, 1811-1831.

Example of Kummer random medium (Fig. 8). - Cerveny, V., Klimes, L. & Psencik, I. (2007):
Seismic ray method: Recent developments.
*Advances in Geophysics*,**48**, 1-126.

Example of the Kummer random medium (Fig. 38). First-arrival travel times in the 2-D representation of the Kummer random medium (Fig. 39).

- Bulant, P. (2000):
Smoothing 2-D model HESS
for Kirchhoff migrations.
In: Seismic Waves in Complex 3-D Structures,
Report 10, pp. 75-82, Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Preparation of a 2-D velocity model by smoothing the discrete 2-D model with a salt body using Sobolev scalar products. Calculation of travel times by interpolation within ray cells. - Bulant, P. (2001):
Sobolev scalar products
in the construction of velocity models -- application to model Hess,
to SEG/EAGE Salt Model, and to model Pluto 1.5.
In: Seismic Waves in Complex 3-D Structures,
Report 11, pp. 133-159, Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Preparation of a 2-D velocity model by smoothing the discrete 2-D model with a salt body using Sobolev scalar products. Calculation of travel times by interpolation within ray cells. - Bulant, P. (2002):
Sobolev scalar products
in the construction of velocity models:
Application to model Hess and to SEG/EAGE Salt Model.
*Pure appl. Geophys.*,**159**, 1487-1506.

Preparation of a 2-D velocity model by smoothing the discrete 2-D model with a salt body using Sobolev scalar products. Calculation of travel times by interpolation within ray cells.

- Klimes, L. & Kvasnicka, M. (1994):
3-D network ray tracing.
*Geophys. J. int.*,**116**, 726-738.

Calculation of travel times by packages NET and CRT. - Klimes, L. (1996):
Grid travel-time tracing:
accuracy comparison of several methods.
In: Seismic Waves in Complex 3-D Structures, Report 4, pp. 143-150,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Calculation of first-arrival travel times in the model by different methods, comparison of their accuracy. - Klimes, L. (1996):
Grid travel-time tracing: second-order method for the first
arrivals in smooth media.
In: Seismic Waves in Complex 3-D Structures, Report 3, pp. 157-174,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Calculation of first-arrival travel times in the model by different methods, comparison of their accuracy. - Klimes, L. (1996):
Grid travel-time tracing: second-order method for the first
arrivals in smooth media.
*Pure appl. Geophys.*,**148**, 539-563.

Calculation of first-arrival travel times in the model by different methods, comparison of their accuracy. - Klimes, L. (2000):
Calculation of geometrical
spreading from gridded slowness vectors in 2-D.
In: Seismic Waves in Complex 3-D Structures, Report 10, pp. 115-120,
Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Calculation of travel times and slowness vectors in the model by package NET, calculation of geometrical spreading from the gridded slowness vector, comparison with ray-theory geometrical spreading.

- Bulant, P. (2002):
Sobolev scalar products
in the construction of velocity models:
Application to model Hess and to SEG/EAGE Salt Model.
*Pure appl. Geophys.*,**159**, 1487-1506.

Preparation of a 2-D velocity model by smoothing the discrete 3-D SEG/EAGE Salt Model using Sobolev scalar products. Ray tracing. - Bulant, P. (2004):
Constructing the SEG/EAGE 3-D Salt Model
for ray tracing using Sobolev scalar products.
*Stud. geophys. geod.*,**48**, 689-707.

Preparation of a 2-D velocity model by smoothing the discrete 3-D SEG/EAGE Salt Model using Sobolev scalar products. Ray tracing. - Bucha, V. (2006):
Ray tracing in the smoothed acoustic SEG/EAGE Salt Model.
Part 1: Seismograms.
*J. seism. Explor.*,**15**, 15-24.

Two-point ray tracing and synthetic seismograms in the 3-D velocity model with interfaces. - Bucha, V. (2006):
Ray tracing in the smoothed acoustic SEG/EAGE Salt Model.
Part 2: Maps of reflections.
*J. seism. Explor.*,**15**, 153-164.

Two-point ray tracing, points of reflection and corresponding amplitudes in the 3-D velocity model with interfaces. - Bucha, V. (2006):
Comparison of finite-difference seismograms and ray-theory
travel times in the elastic SEG/EAGE Salt Model.
*J. seism. Explor.*,**15**, 225-239.

Comparison of finite-difference seismograms calculated in the elastic SEG/EAGE Salt Model with travel times calculated in the 3-D velocity model with interfaces.

- Bulant, P. (2001):
Sobolev scalar products in the construction of velocity models -
application to model Hess, to SEG/EAGE Salt Model, and to model Pluto 1.5.
In:
*Seismic Waves in Complex 3-D Structures, Report 11*, Dep. Geophys., Charles Univ., Prague, pp. 133-159, online at "http://sw3d.cz".

Preparation of a 2-D velocity model with interfaces by smoothing the discrete 2-D model with salt bodies using Sobolev scalar products. Ray tracing.

- Klimes, L. (2003):
Weak-contrast reflection-transmission coefficients
in a generally anisotropic background.
*Geophysics*,**68**, 2063-2072.

Computation of reflection coefficients of P-P, P-SV and P-SH waves in the model with a finite-contrast interface between isotropic and anisotropic half-spaces.

- Klimes, L. (1997):
Correlation functions of random
media.
In: Seismic Waves in Complex 3-D Structures, Report 6,
pp. 25-40, Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Examples of random media. -
Klimes, L. (2001):
Correlation functions of random media.
In: Seismic Waves in Complex 3-D Structures, Report 11,
pp. 91-109, Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Examples of random media. - Klimes, L. (2002):
Correlation functions of random media.
*Pure appl. Geophys.*,**159**, 1811-1831.

Examples of random media.

- Bulant, P. & Martakis, N. (2011):
Constructing model P1I for reflection studies.
In:
*Seismic Waves in Complex 3-D Structures*, Report 21, pp.17-25, Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Construction of the 2-D model with interfaces, calculation of synthetic seismograms of the reflected P-wave.

- Bulant, P. & Martakis, N. (2011):
Constructing model P1I for reflection studies.
In:
*Seismic Waves in Complex 3-D Structures*, Report 21, pp.17-25, Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Construction of the smooth 2-D model. - Sachl, L. (2011):
2D computations of 3D synthetic seismograms using the ray-based
Born approximation in heterogeneous model P1.
In:
*Seismic Waves in Complex 3-D Structures*, Report 21, pp.99-114, Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Calculation of ray-based Born approximation synthetic seismograms in four differently perturbed realizations of model P1, comparison of the seismograms with ray-theory seismograms. -
Bulant, P. (2012):
Interpolation within ray tubes - state of the art.
In:
*Seismic Waves in Complex 3-D Structures, Report 22*, Dep. Geophys., Charles Univ., Prague, pp. 169-182, online at "http://sw3d.cz".

Interpolation of travel times in the model.

- Sachl, L. (2011):
3D and 2D computations of 3D synthetic seismograms using the ray-based
Born approximation in simple models.
In:
*Seismic Waves in Complex 3-D Structures*, Report 21, pp.69-98, Dep. Geophys., Charles Univ., Prague, online at "http://sw3d.cz".

Calculation of ray-based Born approximation synthetic seismograms in models with horizontal, dipping and curved interface, comparison of the seismograms with ray-theory seismograms.