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NC-PDNet: A Density-Compensated Unrolled Network for 2D and 3D Non-Cartesian MRI Reconstruction

Zaccharie Ramzi, Chaithya G R, Jean-Luc Starck, Philippe Ciuciu

2022IEEE Transactions on Medical Imaging57 citationsDOI

Abstract

Deep Learning has become a very promising avenue for magnetic resonance image (MRI) reconstruction. In this work, we explore the potential of unrolled networks for non-Cartesian acquisition settings. We design the NC-PDNet (Non-Cartesian Primal Dual Netwok), the first density-compensated (DCp) unrolled neural network, and validate the need for its key components via an ablation study. Moreover, we conduct some generalizability experiments to test this network in out-of-distribution settings, for example training on knee data and validating on brain data. The results show that NC-PDNet outperforms baseline (U-Net, Deep image prior) models both visually and quantitatively in all settings. In particular, in the 2D multi-coil acquisition scenario, the NC-PDNet provides up to a 1.2 dB improvement in peak signal-to-noise ratio (PSNR) over baseline networks, while also allowing a gain of at least 1dB in PSNR in generalization settings. We provide the open-source implementation of NC-PDNet, and in particular the Non-uniform Fourier Transform in TensorFlow, tested on 2D multi-coil and 3D single-coil k-space data.

Topics & Concepts

Artificial intelligenceComputer scienceGeneralizability theoryGeneralizationIterative reconstructionDeep learningComputer visionImage (mathematics)Key (lock)Baseline (sea)Fourier transformData acquisitionArtificial neural networkPattern recognition (psychology)Feature (linguistics)Magnetic resonance imagingData modelingDual (grammatical number)Real-time MRITest dataBenchmark (surveying)Image processingAlgorithmFeature extractionAdvanced MRI Techniques and ApplicationsSparse and Compressive Sensing TechniquesMedical Imaging Techniques and Applications
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