Task: Imaging Development
Description: Debian Med packages for medical image development
 This metapackage will install Debian packages which might be useful
 for developing applications for medical image processing.

Depends: ctn-dev, cimg-dev, libminc-dev, libmdc2-dev

Depends: libnifti1-dev

Depends: libigstk3-dev

Suggests: igstk-examples

Depends: libinsighttoolkit3-dev

Suggests: insighttoolkit3-examples

Suggests: libnifti-doc

Suggests: libvtk5

Depends: libvolpack1-dev

Depends: libgdcm2-dev

Suggests: python-libavg
Why: Homepage (http://www.libavg.de) shows some potential medical applications

Depends: python-mvpa
Why: Suggested by maintainer Michael Hanke <michael.hanke@gmail.com>

Depends: python-nipy

Depends: odin
Homepage: http://od1n.sourceforge.net/
License: GPL
WNPP: 410318
Vcs-Browser: http://git.debian.org/?p=pkg-exppsy/odin.git
Responsible: Michael Hanke <michael.hanke@gmail.com>
Pkg-URL: http://apsy.gse.uni-magdeburg.de/debian/html/pkgs/odin
Pkg-Description: Object Oriented Development Interface for NMR
 C++ software framework to develop, simulate and run magnetic resonance
 sequences on different platforms. It is
 .
 State-of-the-Art: Contemporary magnetic resonance imaging techniques
 are available, for example sequence modules for echo-planar imaging
 and spiral-imaging, parallel imaging with GRAPPA reconstruction,
 two-dimensional pulses and field-map-based distortion corrections.
 .
 Easy-to-Use: All common steps, from compiling your sequence to
 plotting or simulating it, can be performed within a graphical user
 interface.
 .
 Hardware Independent: ODIN runs on a variety of operating systems and
 scanners. Once you develop a sequence, it can be executed/simulated
 on very different hardware, ranging from a real-time sequence
 controller to your personal workstation.
 .
 Truly Object-Oriented: Written in C++ with an object-oriented design,
 ODIN is very modular, flexible and requires very little code to
 write: The sequences that come with ODIN are easy to understand and
 modify.

Depends: libvista2-dev
Homepage: http://mia.sourceforge.net/
License: GPL
Pkg-Description: software environment for computer vision research
 Vista is a software environment for computer vision research. It is
 designed to support not only images, but also edge sets, camera models,
 and more complex  data structures. Vista includes libraries of common
 computer vision and image  processing algorithms. It is written in
 ANSI C, for UNIX platforms running X Windows, and it is freely available.
 The original development was done  at University of British Columbia
 (http://www.cs.ubc.ca/nest/lci/vista/vista.html).
 .
 Because the development was stalled by the original authors the
 development continued in the "Tools for Medical Image Analysis"
 framework (http://mia.sourceforge.net/) which is maintained by
 Max Planck Institute of Cognitive Neuroscience
 (http://www.cns.mpg.de/).
 .
 This is the development package.

Depends: libmni-perllib-perl
Homepage: http://packages.bic.mni.mcgill.ca/tgz/
License: Artistic License
Responsible: Michael Hanke <michael.hanke@gmail.com>
Pkg-URL: http://apsy.gse.uni-magdeburg.de/svn/fsl/libmni-perllib-perl/trunk/debian/
Pkg-Description: The MNI Perl Library
 Collection of various Perl module used by other MNI software
 packages.
Remark: There was some previous work on this software which is stalled currently
 Michael Hanke agreed to take over his stuff from mentors 
 http://mentors.debian.net/cgi-bin/sponsor-pkglist?action=details;package=libmni-perllib-perl
 to Debian Med svn and start group maintenance. 

Depends: rumba
Homepage: http://www.rumba.rutgers.edu/soft/
License: Artistic
Pkg-URL: http://itanix.rutgers.edu/rumba/dists/unstable/perspect/source/science/
Pkg-Description: analysis of MRI anatomical and functional datasets
 RUMBA (Rutgers University Mind Brain Analysis) toolkit was developed for the
 analysis of MRI anatomical and functional datasets. The toolkit provides means
 to perform I/O, registration, motion correction, filtering, PCA, ICA, GLM, and
 visualization. To take advantage of speedy C++ written I/O and processing
 routines, bindings to high level programming (python) or computational (R)
 environments are available.
Remark: Work done outside Debian
 There seems to be a lot of packaging stuff just done by upstream
 guessed from http://itanix.rutgers.edu/rumba/ and the project homepage.
