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Oleh   Shanshan Wang [-]
Kontributor / Dosen Pembimbing : Sha Tan, Yuan Gao, Qiegen Liu, Leslie Ying, Taohui Xiao, Yuanyuan Liu, Xin Liu, Hairong Zheng, and Dong Liang, Senior Member, IEEE
Jenis Koleksi : Jurnal elektronik
Penerbit : Lain-lain
Fakultas :
Subjek :
Kata Kunci : Parallel imaging, adaptive sparse coding, joint sparsity, MR image reconstruction.
Sumber :
Staf Input/Edit : Irwan Sofiyan  
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Tanggal Input : 2021-04-01 13:31:15

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The integration of compressed sensing and parallel imaging (CS-PI) has shown an increased popularity in recent years to accelerate magnetic resonance (MR) imaging. Among them, calibration-free techniques have presented encouraging performances due to its capability in robustly handling the sensitivity information. Unfortunately, existing calibration-freemethods have only explored joint-sparsity with direct analysis transform projections. To further exploit joint-sparsity and improve reconstruction accuracy, this paper proposes to Learn joINt-sparse coDes for caliBration-free parallEl mR imaGing (LINDBERG) by modeling the parallel MR imaging problem as an 2–F–2,1 minimization objective with an 2 norm constraining data fidelity, Frobenius norm enforcing sparse representation error and the 2,1 mixed norm triggering joint sparsity acrossmultichannels. A corresponding algorithm has been developed to alternatively update the sparse representation, sensitivity encoded images and K-space data. Then, the final image is produced as the square root of sum of squares of all channel images. Experimental results on both physical phantom and in vivo data sets show that the proposedmethod is comparable and even superior to stateof- the-art CS-PI reconstruction approaches. Specifically, LINDBERG has presented strong capability in suppressing noise and artifacts while reconstructing MR images from highly undersampled multichannel measurements.