A singular K-space model for fast reconstruction of magnetic resonance images from undersampled data
RIS ID
118016
Abstract
2017 International Federation for Medical and Biological Engineering Reconstructing magnetic resonance images from undersampled k-space data is a challenging problem. This paper introduces a novel method of image reconstruction from undersampled k-space data based on the concept of singularizing operators and a novel singular k-space model. Exploring the sparsity of an image in the k-space, the singular k-space model (SKM) is proposed in terms of the k-space functions of a singularizing operator. The singularizing operator is constructed by combining basic difference operators. An algorithm is developed to reliably estimate the model parameters from undersampled k-space data. The estimated parameters are then used to recover the missing k-space data through the model, subsequently achieving high-quality reconstruction of the image using inverse Fourier transform. Experiments on physical phantom and real brain MR images have shown that the proposed SKM method constantly outperforms the popular total variation (TV) and the classical zero-filling (ZF) methods regardless of the undersampling rates, the noise levels, and the image structures. For the same objective quality of the reconstructed images, the proposed method requires much less k-space data than the TV method. The SKM method is an effective method for fast MRI reconstruction from the undersampled k-space data. [Figure not available: see fulltext.]
Publication Details
Luo, J., Mou, Z., Qin, B., Li, W., Ogunbona, P., Robini, M. C. & Zhu, Y. (2018). A singular K-space model for fast reconstruction of magnetic resonance images from undersampled data. Medical and Biological Engineering and Computing, 56 (7), 1211-1225.