K. Vahedipour | Semantic Scholar

High‐performance computing MRI simulations

T. Stöcker, K. Vahedipour, D. Pflugfelder, N. J. Shah
Computer Science
Magnetic resonance in medicine
1 July 2010

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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Advances in multimodal neuroimaging: hybrid MR-PET and MR-PET-EEG at 3 T and 9.4 T.

N. Shah, A. Oros-Peusquens, I. Neuner
Physics
Journal of magnetic resonance
1 April 2013

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On the numerically predicted spatial BOLD fMRI specificity for spin echo sequences.

D. Pflugfelder, K. Vahedipour, K. Uludağ, N. Shah, T. Stöcker
Biology
Magnetic resonance imaging
1 November 2011

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Advances in hybrid MR–PET at 3 T and 9.4 T in humans

N. Shah, J. Mauler, H. Herzog
Physics, Chemistry
21 February 2013

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Parallel imaging acceleration of EPIK for reduced image distortions in fMRI

S. D. Yun, M. Reske, K. Vahedipour, T. Warbrick, N. Shah
Medicine
NeuroImage
1 June 2013

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High performance volume-of-intersection projectors for 3D-PET image reconstruction based on polar symmetries and SIMD vectorisation

J. Scheins, K. Vahedipour, U. Pietrzyk, N. Shah
Computer Science
Physics in medicine and biology
18 November 2015

An advantageous symmetry-driven evaluation of the forward-backward projectors is proposed to overcome inefficiencies and suggest a novel organisation of image data and LOR projection data in memory to enable an efficient single instruction multiple data vectorisation.

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Spatiotemporal properties of auditory intensity processing in multisensor MEG

C. Wyss, F. Boers, N. Shah
Biology
NeuroImage
15 November 2014

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Computational fluid dynamic simulation of axial and radial flow membrane chromatography: mechanisms of non-ideality and validation of the zonal rate model.

Pranay Ghosh, K. Vahedipour, Min Lin, J. Vogel, C. Haynes, E. von Lieres
Biology, Engineering
Journal of chromatography. A
30 August 2013

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Zonal Rate Model for Axial and Radial Flow Membrane Chromatography. Part I: Knowledge Transfer Across Operating Conditions and Scales

Pranay Ghosh, K. Vahedipour, Min Lin, J. Vogel, C. Haynes, E. von Lieres
Biology
Biotechnology and bioengineering
23 November 2012

The zonal rate model is shown to potentially help save valuable material and time, as the experiments required for model calibration are much cheaper than the predicted large‐scale experiment at binding conditions.

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Model-based analysis and quantitative prediction of membrane chromatography: extreme scale-up from 0.08 ml to 1200 ml.

Pranay Ghosh, K. Vahedipour, M. Leuthold, E. von Lieres
Biology
Journal of chromatography. A
7 March 2014

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