文件名称:CurveLab-2.1.2
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CurveLab is a collection of Matlab and C++ programs for the Fast Discrete Curvelet
Transform in two and three dimensions.
For the 2d curvelet transform, the software package includes two distinct implementations:
the wrapping-based transform and the transform using unequally-spaced fast Fourier trans-
form (USFFT). Both variants are based on the Curvelet transform as described in ‘New
Tight fr a mes of Curvelets and Optimal Representations of Objects with Piecewise C2Sin-
gularities’, Comm. Pure Appl. Math. 57 (2004) 219-266. The implementation is also
discussed in detail in ‘Fast Discrete Curvelet Transforms’, Multiscale Model. Simul. 5
(2006), no. 3, 861-899. We advise users to become familiar with these references.
The two implementations diff er by the choice of spatial grid used to translate curvelets at
each scale and angle.-CurveLab is a collection of Matlab and C++ programs for the Fast Discrete Curvelet Transform in two and three dimensions. For the 2d curvelet transform, the software package includes two distinct implementations: the wrapping-based transform and the transform using unequally-spaced fast Fourier trans- form (USFFT). Both variants are based on the Curvelet transform as described in ' New Tight fr a mes of Curvelets and Optimal Representations of Objects with Piecewise C2Sin-gularities' , Comm. Pure Appl. Math. 57 (2004) 219-266. The implementation is also discussed in detail in ' Fast Discrete Curvelet Transforms' , Multiscale Model. Simul. 5 (2006), no. 3, 861-899. We advise users to become familiar with these references. The two implementations differ by the choice of spatial grid used to translate curvelets at each scale and angle.
Transform in two and three dimensions.
For the 2d curvelet transform, the software package includes two distinct implementations:
the wrapping-based transform and the transform using unequally-spaced fast Fourier trans-
form (USFFT). Both variants are based on the Curvelet transform as described in ‘New
Tight fr a mes of Curvelets and Optimal Representations of Objects with Piecewise C2Sin-
gularities’, Comm. Pure Appl. Math. 57 (2004) 219-266. The implementation is also
discussed in detail in ‘Fast Discrete Curvelet Transforms’, Multiscale Model. Simul. 5
(2006), no. 3, 861-899. We advise users to become familiar with these references.
The two implementations diff er by the choice of spatial grid used to translate curvelets at
each scale and angle.-CurveLab is a collection of Matlab and C++ programs for the Fast Discrete Curvelet Transform in two and three dimensions. For the 2d curvelet transform, the software package includes two distinct implementations: the wrapping-based transform and the transform using unequally-spaced fast Fourier trans- form (USFFT). Both variants are based on the Curvelet transform as described in ' New Tight fr a mes of Curvelets and Optimal Representations of Objects with Piecewise C2Sin-gularities' , Comm. Pure Appl. Math. 57 (2004) 219-266. The implementation is also discussed in detail in ' Fast Discrete Curvelet Transforms' , Multiscale Model. Simul. 5 (2006), no. 3, 861-899. We advise users to become familiar with these references. The two implementations differ by the choice of spatial grid used to translate curvelets at each scale and angle.
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下载文件列表
CurveLab-2.1.2\curvelab.pdf
..............\curvelab.tex
..............\fdct3d\mex\fdct3d_demo_basic.m
..............\......\...\fdct3d_forward.m
..............\......\...\fdct3d_inverse.m
..............\......\...\fdct3d_param.m
..............\......\src\commoninc.hpp
..............\......\...\fdct3d.hpp
..............\......\...\fdct3dinline.hpp
..............\......\...\fdct3d_forward.cpp
..............\......\...\fdct3d_forward_mex.cpp
..............\......\...\fdct3d_inverse.cpp
..............\......\...\fdct3d_inverse_mex.cpp
..............\......\...\fdct3d_param.cpp
..............\......\...\fdct3d_param_mex.cpp
..............\......\...\makefile
..............\......\...\mexaux.hpp
..............\......\...\nummat.hpp
..............\......\...\numtns.hpp
..............\......\...\numvec.hpp
..............\......\...\offmat.hpp
..............\......\...\offtns.hpp
..............\......\...\offvec.hpp
..............\......\...\options
..............\......\...\TAGS
..............\......\...\test.cpp
..............\......_mpi\src\commoninc.hpp
..............\..........\...\cpxcrvletprtd.cpp
..............\..........\...\cpxcrvletprtd.hpp
..............\..........\...\cpxnumtnsblkd.cpp
..............\..........\...\cpxnumtnsblkd.hpp
..............\..........\...\fdct3d.cpp
..............\..........\...\fdct3d.hpp
..............\..........\...\fdct3dinline.hpp
..............\..........\...\fdct3d_forward.cpp
..............\..........\...\fdct3d_inverse.cpp
..............\..........\...\fdct3d_param.cpp
..............\..........\...\makefile
..............\..........\...\makefile.opt
..............\..........\...\nummat.hpp
..............\..........\...\numtns.hpp
..............\..........\...\numvec.hpp
..............\..........\...\offmat.hpp
..............\..........\...\offtns.hpp
..............\..........\...\offvec.hpp
..............\..........\...\options
..............\..........\...\options_mid
..............\..........\...\options_sml
..............\..........\...\README
..............\..........\...\semantic.cache
..............\..........\...\test.cpp
..............\.......outcore\src\commoninc.hpp
..............\..............\...\cpxcrvletocr.cpp
..............\..............\...\cpxcrvletocr.hpp
..............\..............\...\fdct3d.hpp
..............\..............\...\fdct3dinline.hpp
..............\..............\...\fdct3d_forward.cpp
..............\..............\...\fdct3d_inverse.cpp
..............\..............\...\fdct3d_param.cpp
..............\..............\...\makefile
..............\..............\...\nummat.hpp
..............\..............\...\numtns.hpp
..............\..............\...\numvec.hpp
..............\..............\...\offmat.hpp
..............\..............\...\offtns.hpp
..............\..............\...\offvec.hpp
..............\..............\...\options
..............\..............\...\test.cpp
..............\...._usfft_cpp\mex\afdct_usfft.m
..............\..............\...\fdct_usfft.m
..............\..............\...\fdct_usfft_c2r.m
..............\..............\...\fdct_usfft_demo_basic.m
..............\..............\...\fdct_usfft_demo_denoise.m
..............\..............\...\fdct_usfft_demo_disp.m
..............\..............\...\fdct_usfft_demo_recon.m
..............\..............\...\fdct_usfft_dispcoef.m
..............\..............\...\fdct_usfft_param.m
..............\..............\...\fdct_usfft_pos2idx.m
..............\..............\...\fdct_usfft_r2c.m
..............\..............\...\ifdct_usfft.m
..............\..............\...\Lena.jpg
..............\..............\...\LenaCombined.jpg
..............\..............\src\afdct_usfft.cpp
..............\..............\...\afdct_usfft_mex.cpp
..............\..............\...\fdct_usfft.cpp
..............\..............\...\fdct_usfft.hpp
..............\..............\...\fdct_usfft_inc.hpp
..............\..............\...\fdct_usfft_inline.hpp
..............\..............\...\fdct_usfft_mex.cpp
..............\..............\...\fdct_usfft_param.cpp
..............\..............\...\