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Software

Statistical performances of a super-resolution algorithm,
P. Chainais, A. Leray.
Download (> 51 Mo <)
This is a package of MATLAB functions to reproduce numerical results in our article in IEEE Transaction on Image Processing 2016 (see papers for more details).

Benchmarking tool for tracking algorithms,
S. Rousseau, C. Garnier, P. Chainais.
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Dictionary learning for object tracking in video sequences : benchmarking tool for tracking algorithms (see papers for more details).

3D virtual super-resolution using Compound Poisson Cascades,
E. Koenig, P. Chainais.
Download (> 43 Mo <)
This is a package of MATLAB functions combined to MEX-functions in C to carry out our multifractal virtual super-resolution in 3D using CPC. Tools for visualization are provided as well. The package is documented for installation and use. Refer to our papers for more details.

Virtual super-resolution using Compound Poisson Cascades in scale invariant textured images,
E. Koenig, P. Chainais.
To see some illustrations...
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This is a package of MATLAB functions combined to MEX-functions in C to carry out our multifractal virtual super-resolution in 2D using CPC. Tools for interpolation are provided as well based on the code by P. Thevenaz, T. Blu, M. Unser. Refer to our papers for more details.

Simulation of CPC and Fractionally Integrated CPC on the sphere,
E. Koenig, P. Chainais.
Download (> 10 Mo <)
This is a package of functions in C to carry out the synthesis of CPC textures on the sphere. Meshes and tools for spherical filtering based on the use of spherical harmonics are provided. Refer to our papers for more details.

The first Infinitely Divisible Cascading Film,
P. Chainais, , 2004.
Download/watch (> 35 Mo <)
This is a package of MATLAB procedures to simulate infinitely divisible cascading processes: noise (density), motion (measure) and random walk (fractional Brownian motion in IDC time). The warped as well as exact scale invariant cascades are included. It is self documented.multifractal film : each image is multifractal, and time evolution is multifractal. Refer to our papers for more details.

Synthesis of Infinitely Divisible Cascades in 1D,
P. Chainais, MATLAB, 2004.
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This is a package of MATLAB procedures to simulate infinitely divisible cascading processes: noise (density), motion (measure) and random walk (fractional Brownian motion in IDC time). The warped as well as exact scale invariant cascades are included. It is self documented. Refer to our papers for more details.

Synthesis of Infinitely Divisible Cascades in 2D: towards textures.,
P. Chainais, C for MATLAB, 2005.
Download source files
Download executable files for Mac OS X
Technical report (PDF in french)
This is a package of programs in C for MATLAB (needs Matlab compiler) to simulate infinitely divisible cascading processes in 2D. It is self documented. Refer to our papers for more details.
This toolbox has been developed with G. Quellec and L. Mouzoun, ISIMA students.

Synthesis of Infinitely Divisible Cascades in 3D: towards 3D turbulent scalar fields...,
P. Chainais, C for MATLAB, 2005.
Download source files
Technical report (in french, Word)
This is a package of programs in C for MATLAB (needs Matlab compiler) to simulate infinitely divisible cascading processes in 3D. It is self documented. Refer to our papers for more details.
This toolbox has been developed thanks to O. Lablée and A. Kerandel, ISIMA students.

Visualization of Infinitely Divisible Cascades in 3D using Marching Cubes,
P. Chainais, C++ / OpenGL, 2005.
Binary files for MAC , Linux , Windows .
Technical report (in french, Word) Vol. 1, Vol. 2
This C++/OpenGL application has been developed to visualize 3D multifractal scalar fields such as IDCs.
This toolbox has been developed thanks to G. Henriques and A. Guillou, ISIMA students.

Empirical Mode Decomposition,
P. Chainais, C and C for Matlab (mex), 2005.
Download source files
Technical report (in french, PDF)
The Empirical Mode Decomposition is implemented in C and in C for Matlab (mex-files) in 1D.
This application has been developed thanks to ISIMA students.

Simulation of radiocommunications Earth-to-Earth and Earth-to-Satellite,
P. Chainais, Java / Java Server Pages, 2005.
Simulateur Download Windows version Download Linux version
Technical reports concerning the Java application :
Technical report no 1 (in french, Word, Earth-Earth)
Technical report no 2 (in french, Word, Earth-Earth)
Technical report no 3 (in french, Word, Earth-Satellite)
Technical report on the Java Server Page application :
Technical report (in french, Word, Web appli)
This is a Java application for the simulation of radio bounds on Earth and from Earth to satellite. Simulations are also possible online on Java Server Pages.
This application has been developed thanks to ISIMA students.

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