Kernel Principal Component Analysis of Coil Compression in Parallel Imaging

Computational and Mathematical Methods in Medicine
Yuchou Chang, Haifeng Wang

Abstract

A phased array with many coil elements has been widely used in parallel MRI for imaging acceleration. On the other hand, it results in increased memory usage and large computational costs for reconstructing the missing data from such a large number of channels. A number of techniques have been developed to linearly combine physical channels to produce fewer compressed virtual channels for reconstruction. A new channel compression technique via kernel principal component analysis (KPCA) is proposed. The proposed KPCA method uses a nonlinear combination of all physical channels to produce a set of compressed virtual channels. This method not only reduces the computational time but also improves the reconstruction quality of all channels when used. Taking the traditional GRAPPA algorithm as an example, it is shown that the proposed KPCA method can achieve better quality than both PCA and all channels, and at the same time the calculation time is almost the same as the existing PCA method.

References

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Methods Mentioned

BETA
PCA

Software Mentioned

KPCA
PCA
SPIRiT
SENSE
Matlab
GRAPPA

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