Optimization of k-Space Trajectories for Compressed Sensing by Bayesian Experimental Design
Seeger, Matthias; Nickisch, Hannes; Pohmann, Rolf; Schoelkopf, Bernhard
2010

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Résumé

The optimization of k-space sampling for nonlinear sparse MRI reconstruction is phrased as Bayesian experimental design problem. Bayesian inference is approximated by a novel relaxation to standard signal processing primitives, resulting in an efficient optimization algorithm for Cartesian and spiral trajectories. On clinical resolution brain image data from a Siemens 3T scanner, automatically optimized trajectories lead to significantly improved images, compared to standard low-pass, equispaced or variable density randomized designs. Insights into the nonlinear design optimization problem for MR imaging are given.

Détails

Titre Optimization of k-Space Trajectories for Compressed Sensing by Bayesian Experimental Design
Auteur(s) Seeger, Matthias ; Nickisch, Hannes ; Pohmann, Rolf ; Schoelkopf, Bernhard
Publié dans Magnetic Resonance in Medicine
Volume 61
Numéro 1
Pages 116-126
Date 2010
Editeur Wiley-Blackwell
ISSN 0740-3194
Mots-clés (libres)
DOI https://doi.org/10.1002/mrm.22180
Laboratoires LAPMAL
Le document apparaît dans Production scientifique et compétences > I&C - Faculté Informatique & Communications > IC Archives > LAPMAL - Laboratoire d'apprentissage automatique probabiliste
Publications validées par des pairs
Travail hors EPFL
Articles de journaux
Publié
Date de création de la notice 2010-12-01

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