| The BrainStorm Toolbox |
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BrainStorm is an integrated Matlab Toolbox dedicated to Magnetoencephalography (MEG) and Electroencephalography (EEG) data visualization and processing. Our intention is to make a comprehensive set of tools available to the scientific community involved in MEG/EEG experimental research. BrainStorm features include: Translation routines to get the user data into the BrainStorm database - Import filters include translators of CTF Systems Inc., Neuromag and BTi data formats; Data visualization tools: Various time series displays; Data mapping on the head surface; Generate slides and animations; Channel selection; Data filtering, 3D Surface rendering MRI visualization and co-registration: Import MRI scans, co-registration with the MEG/EEG coordinate system; Superimpose MEG/EEG sources and f-MRI analyze results to the MRI ; Volume rendering; Scalp segmentation Forward modeling includes the single sphere and the overlapping sphere approaches Inverse modeling features the RAP-MUSIC apprral current sources. Models for synchronous pairs of sources are also available. Minimum-norm imaging of the cortical current density is featured.
Submitted: Nov 26, 2000
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| EEGLAB |
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EEGLAB is a toolbox of 250 routines for analyzing and visualizing event-related EEG (or MEG) brain data. A graphic user interface allows users to explore their data interactively, while global data, event and channel location structures, plus a command history mechanism, ease the transition to writing custom analysis scripts. An extensive .html tutorial and help messages allow users to learn all parts of the system. MATLAB and binary routines for performing infomax and extended-infomax ICA are included, as is the sample EEG data set used throughout the tutorial.
Submitted: Dec 09, 2002
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| g.RTsys Biosignal Real-Time Processing System from g.tec |
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The g.RTsys Biosignal Real-Time Processing System is used to acquire and analyze biosignals such as EEG, EMG, ECG, EOG, respiration, and temperature, as well as other data such as acceleration, velocity, and vibration. Based on MATLAB and Simulink, the g.RTsys system is used in brain and life sciences, signal processing/analysis, rehabilitation (brain-computer interface), and biofeedback applications.
Submitted: Feb 17, 2001
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| Psychophysics Toolbox |
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The Psychophysics Toolbox is a copyright free set of MATLAB functions for vision research. Brainard and Pelli 1997.
Submitted: Jul 21, 1999
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| SPM |
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The SPM software package has been designed for the analysis of brain imaging data sequences. The sequences can be a series of images from different cohorts, or time-series from the same subject. The current release is designed for the analysis of fMRI, PET, SPECT and similar modalities. Future releases will incorporate the analysis of EEG and MEG.
Submitted: Sep 12, 2004
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| NIH CORTEX Toolbox |
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A series of routines modified by the Laboratory of Neuropsychology from original routines provided by the Miller Laboratory in the Brain and Cognitive Sciences Department at MIT.
Submitted: Jul 01, 1999
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| PRANA Software for EEG and Sleep Analysis |
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PRANA is a software package consisting of two toolboxes for extensive reviewing and complete analysis of long-term polysomnographic (PSG) and quantitative electroencephalographic (EEG) recordings. PRANA is designed for efficient signal displaying and makes sleep stage scoring and quantitative analyses easier and quicker.
Submitted: Sep 17, 2003
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| Real Time Visual, Acoustic and Tactile Simulation for MATLAB |
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Consists of a paradigm parser, which allows for the setup of user-specific paradigms. Acoustic stimulation, such as music, speech, or tones, can be presented to the subjects in real time. Using visual stimulation with text, pictures, and moving objects allows you to setup different tests and simulations in brain and life sciences. The stimulation unit has several analog and digital inputs for adding external signals (e.g. biosignals, acceleration, motion, switch, etc.) and analog and digital outputs for the control (and synchronization) of external devices.
Submitted: Apr 05, 2000
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| Musculoskeletal Modeling > Virtual Muscle |
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The purpose of this model is to provide an accurate model of muscle, based on experimentally obtained data that can be adapted to any fiber type and can be easily integrated into any existing biomechanical models. The model has been implemented in MATLAB for two reasons. The first is that it is a widely used package for modeling systems both at a purely mathematical level using MATLAB alone, and at a hierarchical systems level using a combination of MATLAB and an associated add-on, SIMULINK.
Submitted: Jun 13, 2005
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| Biomedical Instrumentation and Design |
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Course Syllabus, Course Project Information, Lab Schedule, Course survey, Lecture Schedule Winter 2003, Circuit Kit Item List, Team Evaluation.
Submitted: Jun 15, 2005
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| Bioelectromagnetism MATLAB Toolbox |
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This toolbox has been developed to facilitate quick and easy import, visualisation and measurement for ERP data. The toolbox can open and visualise ERP averaged data (Neuroscan, ascii formats), 2D/3D electrode coordinates and 3D cerebral tissue tesselations (meshes).
Submitted: Jun 06, 2005
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| g.BSanalyse - Multi-modal Off-line Biosignal Analysis under MATLAB |
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g.BSanalyze is an interactive environment for multimodal biosignal data processing in the field of life sciences. — The investigation of patterns and signal features of biosignals allows to observe noninvasively brain, heart- and muscle functions and disfunctions.
Submitted: Mar 10, 2003
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| Computational Bioengineering Course Web Page |
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This course is part of a sequence in computational bioengineering which comprises the following courses: BIOEN 485 (Computational Bioengineering), BIOEN 540 (Biosystem Identification), and BIOEN 584. Please check the course websites for information about the specific course and the Departmental Teaching Schedule for the offering dates.
Submitted: Jun 15, 2005
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| BrainMaps Analyze |
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BrainMaps Analyze is a powerful tool for applying image analysis routines to BrainMaps.org high resolution brain image data.
Submitted: Jun 10, 2006
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| matNMR |
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MatNMR is a highly flexible toolbox for processing 1D and 2D NMR and EPR spectra under MATLAB, creating high-quality 1D, 2D or 3D plots from the spectra and printing them in every type of format that is supported by MATLAB.
Submitted: Oct 09, 2000
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| Toolsmiths® Software Consulting & Training - Custom design software/training/consulting for general, biomedical, and wavelet signal processing |
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Research and development consulting services provided by computational mathematician (Ph.D. from Stanford University) and licensed physician (M.D. from New York University) with more than 25 years of research experience in a wide variety of biomedical and mathematical sciences. Application Areas: Application development; Communications; Data analysis/modeling; Educational instruction; Hydraulics/pneumatics; Machine vision; Medical care/research; Motion control/robotics.
Submitted: Apr 07, 2000
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| VSG2/5 Visual Stimulus Generator |
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The VSG2/5 is the latest in our range of visual stimulus generators that are designed specifically for vision science applications. The unique hardware design produces 15 bits of effective output resolution per color channel for very high resolution contrast and color control. The system is designed to run autonomously from the host computer, so when stimulus generation has commenced the VSG2/5 needs very little intervention. MATLAB is required for this product.
Submitted: Jul 01, 2004
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| An Implementation of the "auditory image model" in MATLAB |
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The Auditory Image Model (AIM) is intended to simulate the processing performed by the auditory system to convert a sound into your first conscious awareness of that sound, that is, your ‘auditory image’ of the sound.
Submitted:
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| ERA-Profiler: Review and analyze any polygraphic sleep/wake recording |
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ERA-Profiler is a software package consisting of two toolboxes for extensive reviewing and complete analysis of long-term polysomnographic (PSG) and quantitative electroencephalographic (EEG) recordings. ERA is designed for efficient signal displaying and makes sleep stage scoring and quantitative analyses easier and quicker. Profiler allows you to visualize and further process time series resulting from ERA analyses or imported from any device. 2- and 3-D graphical representations can be adjusted, displayed on screen, and exported as images or text files.
Submitted: Jan 02, 2001
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| FMRLAB |
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FMRLAB is a matlab toolbox for fMRI and other functional neuroimaging data analysis using independent component analysis (ICA).
Submitted: Sep 09, 2006
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| Net Station - Dense-array EEG environment |
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Net Station is a powerful and extensible dense-array EEG acquisition and analysis environment. It features real-time manipulation and collection of a continuous 128-channel data stream, a powerful operator/operand model of analysis, and hooks for digital video, pattern recognition, and parallel and distributed processing. Application Areas: Data acquisition; Data analysis/modeling; Data management; Motion control/robotics.
Submitted: Apr 07, 2000
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| FieldTrip |
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FieldTrip is a Matlab toolbox for MEG/EEG analysis that is being developed by the F.C. Donders Centre (FCDC) in Nijmegen, the Netherlands. The toolbox includes algorithms for simple and complex analysis of MEG and EEG data, such as time-frequency analysis, source reconstruction using dipoles, distributed sources and beamformers and non-parametric statistical testing. It supports the data formats of all major MEG systems (CTF, Neuromag, BTi) and of the most popular EEG systems, and new formats can be added easily. It contains high-level functions that you can use to construct your own analysis protocol in Matlab. Furthermore, it easily allows developers to incorporate low-level algorithms for new EEG/MEG analysis methods.
Submitted: Oct 10, 2006
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| MAD: MATLAB Auditory Demonstrations |
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Demonstrations, About the MAD Project, Articles, Users' Guide, and Downloads.
Submitted: Jun 08, 2005
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| MATLAB for Medical Engineering |
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Researchers throughout the biotechnology, pharmaceutical, and medical industries use MATLAB® for technical tasks that span the realm of computational biology, diagnostic medical imaging, and biosignal processing. MathWorks™ products are ideally suited for modeling, simulating, analyzing, and visualizing complex biological data.
Submitted: Apr 10, 2008
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| COmpartment Model Kinetic Analysis Tool |
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COMKAT, which stands for 'COmpartment Model Kinetic Analysis Tool', is MATLAB software for compartmental modeling oriented to nuclear medicine applications (PET & SPECT). It supports models of a wide range complexity including multiple injection, receptor model with saturation. It supports many image formats, including DICOM images. Using either the command line interface or GUI, models are easily specified, solved or used to fit experimental data. Sensitivity equations are supported. No mathematical derivations are required on the part of the user.
Submitted: May 12, 2008
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| Helsinki BEM Library |
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Helsinki BEM library is a Matlab source code library for Boundary Element modeling of bioelectromagnetic phenomena and any (quasi)static potential problems that obey the Laplace or Poisson equation. The source code is simple and easy-to-read. The library is suitable both for hands-on learning of the Boundary Element Method and common modeling tasks in, for example, electro- and magnetocardiography or electro- and magnetoencephalography. Theory and implementation of the library is described in: M. Stenroos, V. Mä®´ynen, and J. Nenonen: A Matlab library for solving quasi-static volume conduction problems using the boundary element method, Computer Methods and Programs in Biomedicine, 88:256-263, 2007.
Submitted: Nov 28, 2007
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| Psychotoolbox Overview |
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The attraction of using computer displays for visual psychophysics is that they allow software specification of the stimulus. Programs to run experiments are often written in a low-level language (e.g. C or Pascal) to achieve full control of the hardware for precise stimulus display. Although these low-level languages provide power and flexibility, they are not conducive to rapid program development. Interpreted languages (e.g. BASIC, LISP, Mathematica, and Matlab) are abstracted from hardware details and provide friendlier development environments, but don't provide the hardware control needed for precise stimulus display. The Psychophysics Toolbox is a software package that adds this capability to the Matlab application on Macintosh and Windows computers.
Submitted: Jun 16, 2008
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| EEG / MRI Matlab Toolbox |
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This toolbox has been developed to facilitate quick and easy import, visualisation and measurement for ERP data. The toolbox can open and visualise ERP averaged data (Neuroscan, ascii formats), 2D/3D electrode coordinates and 3D cerebral tissue tesselations (meshes). All the features can be explored quickly and easily using the example data provided in the toolbox. The GUI interface is simple and intuitive. The following lists the features already available and some items that could be developed.
Submitted: Mar 11, 2009
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