Yuchou Chang scite author profile

GRAPPA linearly combines the undersampled k-space signals to estimate the missing k-space signals where the coefficients are obtained by fitting to some auto-calibration signals (ACS) sampled with Nyquist rate based on the shift-invariant property. At high acceleration factors, GRAPPA reconstruction can suffer from a high level of noise even with a large number of auto-calibration signals. In this work, we propose a nonlinear method to improve GRAPPA. The method is based on the so-called kernel method which is widely used in machine learning. Specifically, the undersampled k-space signals are mapped through a nonlinear transform to a high-dimensional feature space, and then linearly combined to reconstruct the missing k-space data. The linear combination coefficients are also obtained through fitting to the ACS data but in the new feature space. The procedure is equivalent to adding many virtual channels in reconstruction. A polynomial kernel with explicit mapping functions is investigated in this work. Experimental results using phantom and in vivo data demonstrate that the proposed nonlinear GRAPPA method can significantly improve the reconstruction quality over GRAPPA and its state-of-the-art derivatives. Magn Reson Med 68:730-740,

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Sensitivity encoding reconstruction with nonlocal total variation regularization

Liang

Wang

Chang

et al. 2010

Magn. Reson. Med.

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In sensitivity encoding reconstruction, the issue of ill conditioning becomes serious and thus the signal-to-noise ratio becomes poor when a large acceleration factor is employed. Total variation (TV) regularization has been used to address this issue and shown to better preserve sharp edges than Tikhonov regularization but may cause blocky effect. In this article, we study nonlocal TV regularization for noise suppression in sensitivity encoding reconstruction. The nonlocal TV regularization method extends the conventional TV norm to a nonlocal version by introducing a weighted nonlocal gradient function calculated from the weighted difference between the target pixel and its generalized neighbors, where the weights incorporate the prior information of the image structure. The method not only inherits the edge-preserving advantage of TV regularization but also overcomes the blocky effect. The experimental results from in vivo data show that nonlocal TV regularization is superior to the existing competing methods in preserving fine details and reducing noise and artifacts. Magn Reson Med 65:1384-1392,

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Unsupervised feature selection using clustering ensembles and population based incremental learning algorithm

Hong

Kwong

Chang

et al. 2008

Pattern Recognition

134

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A facial expression recognition system based on supervised locally linear embedding

Liang

Yang

Zheng

et al. 2005

Pattern Recognition Letters

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A survey of GPU-based acceleration techniques in MRI reconstructions

Wang

Peng

Chang

et al. 2018

Quant. Imaging Med. Surg.

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Image reconstruction in magnetic resonance imaging (MRI) clinical applications has become increasingly more complicated. However, diagnostic and treatment require very fast computational procedure. Modern competitive platforms of graphics processing unit (GPU) have been used to make high-performance parallel computations available, and attractive to common consumers for computing massively parallel reconstruction problems at commodity price. GPUs have also become more and more important for reconstruction computations, especially when deep learning starts to be applied into MRI reconstruction. The motivation of this survey is to review the image reconstruction schemes of GPU computing for MRI applications and provide a summary reference for researchers in MRI community.

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Yuchou Chang

Nonlinear GRAPPA: A kernel approach to parallel MRI reconstruction

Sensitivity encoding reconstruction with nonlocal total variation regularization

Unsupervised feature selection using clustering ensembles and population based incremental learning algorithm

A facial expression recognition system based on supervised locally linear embedding

A survey of GPU-based acceleration techniques in MRI reconstructions

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