Package: matlab-psychtoolbox-3 Source: psychtoolbox-3-nonfree Version: 3.0.14.20170103+git6-g605ff5c-1~ndall Architecture: all Maintainer: NeuroDebian Team Installed-Size: 19 Depends: matlab-psychtoolbox-3-nonfree (= 3.0.14.20170103+git6-g605ff5c-1~ndall), psychtoolbox-3-common (>= 3.0.14.20170103+git6-g605ff5c-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_3.0.14.20170103+git6-g605ff5c-1~ndall_all.deb Size: 4152 SHA256: 4fcb1cc803ef77f25613cc8a055c3351083aa1d6423ce5607e0a78ef3f196206 SHA1: 8d5dfebbd499280d9c13334393f3f796001702c5 MD5sum: fa417a692ba93a7a2f6799d4800929b3 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: 3.0.14.20170103+git6-g605ff5c-1~ndall Architecture: amd64 Maintainer: NeuroDebian Team Installed-Size: 5012 Depends: psychtoolbox-3-lib (>= 3.0.14.20170103+git6-g605ff5c-1~ndall.dfsg), psychtoolbox-3-common (>= 3.0.14.20170103+git6-g605ff5c-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_3.0.14.20170103+git6-g605ff5c-1~ndall_amd64.deb Size: 1050378 SHA256: d40656f96ed77b9e7702a94532677607efee38e42efd2813fefa782701b215d8 SHA1: b5f7b761670823efa3d21ad37006b7ad76f88c27 MD5sum: 1ded9f37ffeb2b360b034c84c2ddffcb 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: 3.0.14.20170103+git6-g605ff5c-1~ndall Architecture: amd64 Maintainer: NeuroDebian Team Installed-Size: 1783 Depends: octave-psychtoolbox-3 (>= 3.0.14.20170103+git6-g605ff5c-1~ndall.dfsg), psychtoolbox-3-common (>= 3.0.14.20170103+git6-g605ff5c-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_3.0.14.20170103+git6-g605ff5c-1~ndall_amd64.deb Size: 406858 SHA256: 596e0d51afd0ec0360d2c3ec152cdf6654ca7fb5992590c4cc3de6255dcb2240 SHA1: 2e4108657769a11f24e9e13a26434cefbfa6ab01 MD5sum: 4bd3bb66efd58cc3d7851ed9603a2165 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+nd90+1+nd16.10+1 Architecture: all Maintainer: NeuroDebian Team Installed-Size: 3036 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+nd90+1+nd16.10+1_all.deb Size: 1771576 SHA256: a84a8ef0272532958ab06a4513e2dcd3ccf62c7b2105a8d6d5fcf01c8939f570 SHA1: 5d88de410a4aad8acd2684bcf607e7840cdd6f13 MD5sum: 63ea86f5297c76a069462a88ded421b7 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.