• DocumentCode
    1758570
  • Title

    Trust Region Methods for the Estimation of a Complex Exponential Decay Model in MRI With a Single-Shot or Multi-Shot Trajectory

  • Author

    Chenxi Hu ; Reeves, Stanley J.

  • Author_Institution
    Dept. of Electr. & Comput. Eng., Auburn Univ., Auburn, AL, USA
  • Volume
    24
  • Issue
    11
  • fYear
    2015
  • fDate
    Nov. 2015
  • Firstpage
    3694
  • Lastpage
    3706
  • Abstract
    Joint estimation of spin density R*2 decay and OFF-resonance frequency maps is very useful in many magnetic resonance imaging applications. The standard multi-echo approach can achieve high accuracy but requires a long acquisition time for sampling multiple k-space frames. There are many approaches to accelerate the acquisition. Among them, single-shot or multi-shot trajectory-based sampling has recently drawn attention due to its fast data acquisition. However, this sampling strategy destroys the Fourier relationship between k-space and images, leading to a great challenge for the reconstruction. In this paper, we present two trust region methods based on two different linearization strategies for the nonlinear signal model. A trust region is defined as a local area in the variable space where a local linear approximation is trustable. In each iteration, the method minimizes a local approximation within a trust region so that the step size can be kept in a suitable scale. A continuation scheme is applied to reduce the regularization gradually over the parameter maps and facilitates convergence from poor initializations. The two trust region methods are compared with the two other previously proposed methods-the nonlinear conjugate gradients and the gradual refinement algorithm. Experiments based on various synthetic data and real phantom data show that the two trust region methods have a clear advantage in both speed and stability.
  • Keywords
    biomedical MRI; conjugate gradient methods; data acquisition; image sampling; linearisation techniques; medical image processing; phantoms; refinement calculus; MRI; OFF-resonance frequency map estimation; complex exponential decay model estimation; continuation scheme; data acquisition; gradual refinement algorithm; image reconstruction; magnetic resonance imaging application; multiecho approach; multiple k-space frame sampling; multishot trajectory-based sampling; nonlinear conjugate gradient algorithm; nonlinear signal model; phantom data; single-shot trajectory-based sampling; spin density decay estimation; trust region method; Approximation methods; Convergence; Cost function; Estimation; Image reconstruction; Magnetic resonance imaging; Trajectory; $R_{2}^{ast }$ estimation; R 2 estimation; field map estimation; iterative algorithm; trust region method;
  • fLanguage
    English
  • Journal_Title
    Image Processing, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1057-7149
  • Type

    jour

  • DOI
    10.1109/TIP.2015.2442917
  • Filename
    7120112