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Basic study of random sampling for compressed sensing using MRI simulator.

K Hori1, T Hashimoto, S Kuhara

  • 1Kyorin University Graduate School of Health Sciences, Tokyo, Japan. hori1911n@std.kyorin-u.ac.jp.

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This study compares magnetic resonance imaging (MRI) simulation methods for compressed sensing (CS). Our advanced simulation, incorporating actual scanner data, revealed limitations of Hermitian symmetry sampling, highlighting the need for phase correction in realistic MRI scenarios.

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Area of Science:

  • Medical Imaging
  • Computational Science

Background:

  • Magnetic Resonance Imaging (MRI) is a key tomography technology for anatomical depiction.
  • Compressed Sensing (CS) enables MRI reconstruction from sparse data.
  • Developing efficient random sampling methods is crucial for CS-based MRI.

Purpose of the Study:

  • To evaluate the accuracy of numerical simulations for compressed sensing MRI.
  • To compare a basic simulation with an advanced method using actual MRI scanner data.
  • To assess the performance of different random sampling strategies, including those considering Hermitian symmetry.

Main Methods:

  • A basic simulation used a 2D Shepp-Logan phantom and k-space data.
  • An advanced simulation employed an MRI simulator (Bloch Solver) with k-space data from an actual MRI scanner (Vantage Titan 3T) and a phantom.
  • Two random sampling methods were tested: Gaussian (GA) and Gaussian with Hermitian symmetry (GH). Image quality was assessed using Normalized Root Mean Squared Error (NRMSE).

Main Results:

  • In basic simulations, Gaussian with Hermitian symmetry (GH) outperformed Gaussian (GA) sampling due to efficient data acquisition.
  • However, in the advanced simulation incorporating phase errors from actual scanner data, GH resulted in worse NRMSE than GA.
  • The presence of phase errors in the advanced method invalidated the assumptions of Hermitian symmetry, leading to reconstruction inaccuracies.

Conclusions:

  • Numerical simulation using an MRI simulator with phase maps closely mimics actual MRI conditions and is valuable for validating sampling methods.
  • Gaussian sampling with Hermitian symmetry is effective under ideal conditions but requires accurate phase correction for real-world MRI data.
  • The study underscores the importance of accounting for phase errors in realistic MRI simulations for compressed sensing.