Package: fsl Version: 5.0.9-3~nd80+1 Architecture: all Maintainer: NeuroDebian Team Installed-Size: 55 Depends: fsl-core Homepage: http://www.fmrib.ox.ac.uk/fsl/ Priority: optional Section: non-free/oldlibs Filename: pool/non-free/f/fsl/fsl_5.0.9-3~nd80+1_all.deb Size: 21600 SHA256: 4dd0f6a51fd8bf6963d3fb1bf7e4f598bcd026351bdbc460f158eaac44b46cf5 SHA1: 4e9c04d60d5276a81b983f074ba6b87aedb6911e MD5sum: ef8d802c2d80938f5edac7371252b4e6 Description: transitional dummy package The only purpose of this package is to enable upgrades to the new 'fsl-core' package which replaces 'fsl'. This package can safely be removed. . Users aiming to perform a complete FSL installation (including all data components) are advised to install the 'fsl-complete' package from NeuroDebian. Package: fsl-5.0 Source: fsl Version: 5.0.9-3~nd80+1 Architecture: all Maintainer: NeuroDebian Team Installed-Size: 52 Depends: fsl-5.0-core Homepage: http://www.fmrib.ox.ac.uk/fsl/ Priority: optional Section: non-free/oldlibs Filename: pool/non-free/f/fsl/fsl-5.0_5.0.9-3~nd80+1_all.deb Size: 20252 SHA256: f8c008b210052ea7a4fb48efca38d5faabf7a74aab2bf5f5e8a209b15e6f078a SHA1: 21a63b12859d4c2dc71c25c12733ae9c7e647f61 MD5sum: 69439bf6ce6a168b3c7766f126d5b0f2 Description: transitional dummy package The only purpose of this package is to enable upgrades to the new 'fsl-5.0-core' package which replaces 'fsl-5.0'. This package can safely be removed. . Users aiming to perform a complete FSL 5.0 installation (including all data components) are advised to install the 'fsl-5.0-complete' package from NeuroDebian. Package: fsl-5.0-core Source: fsl Version: 5.0.9-3~nd80+1 Architecture: amd64 Maintainer: NeuroDebian Team Installed-Size: 39989 Depends: mozilla-firefox | www-browser, tcsh | c-shell, tk, tcl, bc, dc, python, libjs-excanvas, libc6 (>= 2.14), libexpat1 (>= 2.0.1), libgcc1 (>= 1:4.1.1), libgd3 (>= 2.1.0~alpha~), libgdchart-gd2-noxpm | libgdchart-gd2-xpm, libgiftiio0, libgl1-mesa-glx | libgl1, libglu1-mesa | libglu1, libnewmat10ldbl, libnifti2, libpng12-0 (>= 1.2.13-4), libstdc++6 (>= 4.9), zlib1g (>= 1:1.1.4) Recommends: fsl-atlases, fsl-5.0-eddy-nonfree, fslview Suggests: fsl-feeds, fsl-5.0-gpu, octave, mriconvert | dicomnifti, fsl-complete, condor | gridengine-client Conflicts: fsl-doc-4.1 (<< 4.1.9-5~), fsl-fslview Breaks: fsl-5.0 (<< 5.0.3) Replaces: fsl-5.0 (<< 5.0.3) Provides: fsl Homepage: http://www.fmrib.ox.ac.uk/fsl/ Priority: optional Section: non-free/science Filename: pool/non-free/f/fsl/fsl-5.0-core_5.0.9-3~nd80+1_amd64.deb Size: 8454016 SHA256: 294e01d23c5aa3301dc6eafef9160515711cd3438f8bf63543027890b7a7458d SHA1: 581d8a61054e7166b6c5667a381163a1ef130af8 MD5sum: 5c4bd8f918814ab1722eed72bea73730 Description: analysis tools for FMRI, MRI and DTI brain imaging FSL is a comprehensive library of image analysis and statistical tools for fMRI, MRI and DTI brain imaging data. The suite consists of various command line tools, as well as simple GUIs for its core analysis pipelines. Among others, FSL offers implementations of standard GLM analysis, white matter tractography, tissue segmentation, affine and non-linear co-registration, and independent component analysis. . Some FSL components require additional data packages (fsl-atlases, fsl-first-data, fsl-possum-data) that are currently available from the NeuroDebian repository only. For more information on how to obtain these data packages visit http://neuro.debian.net. . Users aiming to perform a complete FSL 5.0 installation (including all data components) are advised to install the 'fsl-5.0-complete' package from NeuroDebian. . FSL interoperates well with other brain imaging related software. This includes Caret, FreeSurfer (cortical flattening and modelling). All FSL tools support the NIfTI format. Package: fsl-5.0-eddy-nonfree Source: fsl-eddy-nonfree Version: 5.0.9-1~nd80+1 Architecture: amd64 Maintainer: NeuroDebian Team Installed-Size: 866 Depends: neurodebian-popularity-contest, fsl-5.0-core (>= 5.0.9-1~), libc6 (>= 2.14), libgcc1 (>= 1:4.1.1), libnewmat10ldbl, libstdc++6 (>= 4.9) Conflicts: fsl-5.0-core (<< 5.0.9) Priority: optional Section: non-free/science Filename: pool/non-free/f/fsl-eddy-nonfree/fsl-5.0-eddy-nonfree_5.0.9-1~nd80+1_amd64.deb Size: 278910 SHA256: b6ff430c9a86219f6f8f9a79b7767ed7e12bef595a355e16c1cacd6529f7d6df SHA1: b629b3c20f4c0d2354815c4382f2ae1b243599fe MD5sum: 5c2cf2420d049a4179dc84c5a8eef038 Description: correcting eddy currents and movements in diffusion data This package provide the 'eddy' component of the FSL MRI data analysis suite. Since FSL 5.0.9 eddy is no longer included in the main fsl package, because its sources are no longer publicly available. Package: fsl-core Source: fsl Version: 5.0.9-3~nd80+1 Architecture: all Maintainer: NeuroDebian Team Installed-Size: 70 Depends: fsl-5.0-core Breaks: fsl (<< 5.0.3) Replaces: fsl (<< 5.0.3) Homepage: http://www.fmrib.ox.ac.uk/fsl/ Priority: optional Section: non-free/science Filename: pool/non-free/f/fsl/fsl-core_5.0.9-3~nd80+1_all.deb Size: 21538 SHA256: efe6918236ff441b27c16f5652d123ed24c4ffbdebfc1f2dd22011ba6a644f3e SHA1: 3f9ac8b62877daeac20f3bbcb71b6eff87cfb008 MD5sum: 5bd3e7324731684e832960e5f1a52324 Description: metapackage for the latest version of FSL FSL is a comprehensive library of image analysis and statistical tools for fMRI, MRI and DTI brain imaging data. The suite consists of various command line tools, as well as simple GUIs for its core analysis pipelines. Among others, FSL offers implementations of standard GLM analysis, white matter tractography, tissue segmentation, affine and non-linear co-registration, and independent component analysis. . Some FSL components require additional data packages (fsl-atlases, fsl-first-data, fsl-possum-data) that are currently available from the NeuroDebian repository only. For more information on how to obtain these data packages visit http://neuro.debian.net. . Users aiming to perform a complete FSL installation (including all data components) are advised to install the 'fsl-complete' package from NeuroDebian. Package: matlab-psychtoolbox-3 Source: psychtoolbox-3-nonfree Version: 3.0.12.20160514-1~ndall Architecture: all Maintainer: NeuroDebian Team Installed-Size: 19 Depends: matlab-psychtoolbox-3-nonfree (= 3.0.12.20160514-1~ndall), psychtoolbox-3-common (>= 3.0.12.20160514-1~ndall.dfsg) Recommends: matlab-support Homepage: http://psychtoolbox.org Priority: extra Section: non-free/science Filename: pool/non-free/p/psychtoolbox-3-nonfree/matlab-psychtoolbox-3_3.0.12.20160514-1~ndall_all.deb Size: 4096 SHA256: 8ac12c0b55df1a708df6469be7c0ea5931ee47cc35a0cce91f47faa928ae1427 SHA1: b4e7af4090587ab97656898474c0dec1a5c36e70 MD5sum: 833fe0815607ad13ef7cfa8a38eddcc7 Description: toolbox for vision research -- Matlab bindings Psychophysics Toolbox Version 3 (PTB-3) is a free set of Matlab and GNU/Octave functions for vision research. It makes it easy to synthesize and show accurately controlled visual and auditory stimuli and interact with the observer. . The Psychophysics Toolbox interfaces between Matlab or Octave and the computer hardware. The Psychtoolbox's core routines provide access to the display frame buffer and color lookup table, allow synchronization with the vertical retrace, support millisecond timing, allow access to OpenGL commands, and facilitate the collection of observer responses. Ancillary routines support common needs like color space transformations and the QUEST threshold seeking algorithm. . This package exposes PTB-3 within Matlab environment. It also provides a convenience script ptb3-matlab to simplify running psychtoolbox in matlab. . See also http://www.psychtoolbox.org/UsingPsychtoolboxOnUbuntu for additional information about systems tune-up and initial configuration. . For now it relies on -nonfree package providing binary builds of all PTB-3 bindings for Matlab. Package: matlab-psychtoolbox-3-nonfree Source: psychtoolbox-3-nonfree Version: 3.0.12.20160514-1~ndall Architecture: amd64 Maintainer: NeuroDebian Team Installed-Size: 4881 Depends: psychtoolbox-3-lib (>= 3.0.12.20160514-1~ndall.dfsg), psychtoolbox-3-common (>= 3.0.12.20160514-1~ndall.dfsg), libx11-6, libxext6, libxfixes3, libxi6, freeglut3, libgl1-mesa-glx, libxmu6, libxpm4 Recommends: libasound2, libdc1394-22, libfreenect0.1, libglib2.0-0, libglu1-mesa, libopenal1, libpciaccess0, libusb-1.0-0 (>= 2:1.0.9~), libxml2, libxrandr2, libxxf86vm1 Homepage: http://psychtoolbox.org Priority: extra Section: non-free/science Filename: pool/non-free/p/psychtoolbox-3-nonfree/matlab-psychtoolbox-3-nonfree_3.0.12.20160514-1~ndall_amd64.deb Size: 1041336 SHA256: 16feef359de8989316fe663220964fb0a3db604b71c7b4c609b8d6dc16ef3e29 SHA1: 42eba8e64d3983625fe440d73a687b8584a361a4 MD5sum: 545e11bc086d7a2e9133e0bf20aeee78 Description: toolbox for vision research -- Matlab binary blobs Psychophysics Toolbox Version 3 (PTB-3) is a free set of Matlab and GNU/Octave functions for vision research. It makes it easy to synthesize and show accurately controlled visual and auditory stimuli and interact with the observer. . The Psychophysics Toolbox interfaces between Matlab or Octave and the computer hardware. The Psychtoolbox's core routines provide access to the display frame buffer and color lookup table, allow synchronization with the vertical retrace, support millisecond timing, allow access to OpenGL commands, and facilitate the collection of observer responses. Ancillary routines support common needs like color space transformations and the QUEST threshold seeking algorithm. . This package contains binary builds for Datapixx and Eyelink bindings for Matlab built/supported/distributed by upstream. Package: octave-psychtoolbox-3-nonfree Source: psychtoolbox-3-nonfree Version: 3.0.12.20160514-1~ndall Architecture: amd64 Maintainer: NeuroDebian Team Installed-Size: 1783 Depends: octave-psychtoolbox-3 (>= 3.0.12.20160514-1~ndall.dfsg), psychtoolbox-3-common (>= 3.0.12.20160514-1~ndall.dfsg) Homepage: http://psychtoolbox.org Priority: extra Section: non-free/science Filename: pool/non-free/p/psychtoolbox-3-nonfree/octave-psychtoolbox-3-nonfree_3.0.12.20160514-1~ndall_amd64.deb Size: 406834 SHA256: c725a750f80d09e52dca9075a46018c19c386b120ea103ff06bee0ed567b9c90 SHA1: 39daeff8189b5ee8b1036c350adde5a8f490ddb6 MD5sum: a5c818bd788969194c22a8dc7b68ab1a Description: toolbox for vision research -- Octave binary blobs Psychophysics Toolbox Version 3 (PTB-3) is a free set of Matlab and GNU/Octave functions for vision research. It makes it easy to synthesize and show accurately controlled visual and auditory stimuli and interact with the observer. . The Psychophysics Toolbox interfaces between Matlab or Octave and the computer hardware. The Psychtoolbox's core routines provide access to the display frame buffer and color lookup table, allow synchronization with the vertical retrace, support millisecond timing, allow access to OpenGL commands, and facilitate the collection of observer responses. Ancillary routines support common needs like color space transformations and the QUEST threshold seeking algorithm. . This package contains binary builds for Datapixx and Eyelink bindings for Octave built/supported/distributed by upstream. Package: virtual-mri-nonfree Source: vmri-nonfree Version: 3.2.14-1~nd70+1 Architecture: all Maintainer: NeuroDebian Team Installed-Size: 3063 Depends: neurodebian-popularity-contest, openjdk-7-jre | java-runtime Homepage: http://www.iftm.de/elearning/vmri/idx_vmri.htm Priority: extra Section: non-free/science Filename: pool/non-free/v/vmri-nonfree/virtual-mri-nonfree_3.2.14-1~nd70+1_all.deb Size: 2051872 SHA256: c9772d066da29f69860ae42cbca9805917dbeb520fb1f7614c49531e47dc66d0 SHA1: 3533625c940936aec15a317cdaaa12adb9e00082 MD5sum: 9ffed1c52f0c7bba4c04bdb549847ed1 Description: Virtual Magnetic Resonance Imager A realistic simulation of magnetic reasonance imaging that allows for exploring the most relevant parameters of a scanner to aid training of students and doctors. . At the moment the pulse sequence classes SR, IR, SE, TSE, FLASH and FISP are implemented. Parameters, like TR, TE, TI, flip-angle or echo train length, can be adjusted. The choice of matrix size, FOV, slice-thickness and number of acquisitions affect the signal-to-noise ratio of the images. In a first step, the simulation calculates the signal intensity in the k-space. Aliasing- and motion-artifacts are simulated by modifying the k-space data. In a last step, a 2D-fouriertransform of the k-space data is performed. Window and center of the resulting images can be changed.