MRiLab is a numerical MRI simulation package for BSD, Linux, or Windows platforms
Description
The MRiLab is a numerical Magnetic Resonance Imaging (MRI) simulation package. It has been invented and developed to simulate MR signal formation, k-space acquisition and MR image reconstruction. MRiLab provides several dedicated toolboxes for MR researchers to analyze RF pulse, design MR sequence, configure multiple transmitting and receiving coils, investigate field inhomogeneity and test real-time technique with moving objects etc. The main simulation platform combined with these toolboxes can be applied for customizing various virtual MR experiments which can serve as a prior stage for prototyping and testing new MR technique and application.
MRiLab v1.2 is now available, with new features of:
> Up to 2X speed boost
> Provide a new phantom design tool
> Enhance MR sequence design
> Polish sequence waveform rendering
> Support XML direct editing
> More...
MRiLab Web Site
Categories Medical Science Apps., Education, Medical Physics License BSD License Features - Highly interactive program-free graphical user interface
- Graphical MR pulse sequence design and analysis
- RF and gradient modules for B1 and B0 field analysis
- Fast and accurate parallelized simulation for tissue response in 3D
- Enriched functions for multidimensional image display and analysis
- Low computation hardware requirement
What is MRiLab
The MRiLab is a numerical MRI simulation package. It has been invented and developed to simulate MR signal formation, k-space acquisition and MR image reconstruction. MRiLab provides several dedicated toolboxes for MR researchers to analyze RF pulse, design MR sequence, configure multiple transmitting and receiving coils, investigate field inhomogeneity and test real-time imaging technique etc. The main MRiLab simulation platform combined with these toolboxes can be applied for customizing various virtual MR experiments which can serve as a prior stage for prototyping and testing new MR technique and application.
The MRiLab features highly interactive graphical user interface (GUI) for the ease of fast experiment design and technique prototyping. A high simulation accuracy is achieved by simulating discrete spin evolution at small time interval using the Bloch-equation and appropriate spin model. In order to manipulate large multidimensional spin array, MRiLab employs parallel computing by incorporating latest GPU technique and multi-threading CPU technique. Benefit from the accelerated computing, MRiLab can accomplish multidimensional multiple spin species MR simulation with high simulation accuracy and time efficiency, and with low computing hardware cost.
http://mrilab.sourceforge.net/
http://sourceforge.net/projects/mrilab/
http://sourceforge.net/projects/mrilab/files/latest/download