ODIN-object-oriented development interface for NMR.
@article{Jochimsen2004ODINobjectorientedDI,
title={ODIN-object-oriented development interface for NMR.},
author={Thies H. Jochimsen and Michael von Mengershausen},
journal={Journal of magnetic resonance},
year={2004},
volume={170 1},
pages={
67-78
}
}
75 Citations
Pulseq-Graphical Programming Interface: Open source visual environment for prototyping pulse sequences and integrated magnetic resonance imaging algorithm development.
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A powerful graphical pulse sequence programming tool has been designed for creating magnetic resonance imaging (MRI) applications that allows rapid development of pulse sequences in graphical mode, and consists of three modules which include a graphical sequence editor, a parameter management module and a sequence compiler.
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JEMRIS, the Jülich Extensible MRI Simulator, which provides an MRI sequence development and simulation environment for the MRI community, is presented and examples of novel simulation results in active fields of MRI research are given.
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Pulseq: A rapid and hardware‐independent pulse sequence prototyping framework
- Computer ScienceMagnetic resonance in medicine
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This work presents an alternative programming environment that is hardware‐independent, open‐source, and promotes rapid sequence prototyping.
coreMRI: A high-performance, publicly available MR simulation platform on the cloud
- Computer SciencePloS one
- 2019
coreMRI is available to the entire MR community, whereas its high performance and scalability allow its users to configure advanced MRI experiments without the constraints imposed by experimentation in a true MRI scanner, without upfront investment for purchasing advanced computer systems and without any user expertise on computer programming or MR physics.
The development and application of a simulation system for diffusion-weighted MRI
- Computer Science
- 2018
An existing MRI simulator is extended to create a simulation system capable of producing realistic DW-MR data, with artefacts, and applies it to improve the acquisition and processing of such data and to develop a new tool to perform automatic quality control.
Efficient simulation of magnetic resonance imaging with Bloch-Torrey equations using intra-voxel magnetization gradients.
- PhysicsJournal of magnetic resonance
- 2006
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