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An Accelerated Rank-(L,L,1,1) Block Term Decomposition Of Multi-Subject Fmri Data Under Spatial Orthonormality Constraint

https://doi.org/10.1109/ICASSP43922.2022.9746404

Kuang, Li-Dan ; Wang, Biao ; Lin, Qiu-Hua ; Zhang, Hao-Peng ; Zhang, Jianming ; Li, Wenjun ; Li, Feng ; Calhoun, Vince D. ( May 2022 , The International Conference on Acoustics, Speech, & Signal Processing (ICASSP))

The decomposition of multi-subject fMRI data using rank- (L,L,1,1) block term decomposition (BTD) can preserve higher-way data structure and is more robust to noise effects by decomposing shared spatial maps (SMs) into a product of two rank-L loading matrices. However, since the number of whole-brain voxels is very large and rank L is larger than 1, the rank-(L,L,1,1) BTD requires high computation and memory. Therefore, we propose an accelerated rank- (L,L,1,1) BTD algorithm based upon the method of alternating least squares (ALS). We speed up updates of loading matrices by reducing fMRI data into subspaces, and add an orthonormality constraint on shared SMs to improve the performance. Moreover, we evaluate the rank-L effect on the proposed method for actual task-related fMRI data. The proposed method shows better performance when L=35. Meanwhile, experimental comparison results verify that the proposed method largely reduced (17.36 times) computation time compared to ALS while also providing satisfying separation performance.
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Low-Rank Tucker-2 Model for Multi-Subject fMRI Data Decomposition With Spatial Sparsity Constraint

https://doi.org/10.1109/TMI.2021.3122226

Han, Yue ; Lin, Qiu-Hua ; Kuang, Li-Dan ; Gong, Xiao-Feng ; Cong, Fengyu ; Wang, Yu-Ping ; Calhoun, Vince D. ( March 2022 , IEEE Transactions on Medical Imaging)
Constrained CPD of Complex-Valued Multi-Subject fMRI Data via Alternating Rank- R and Rank-1 Least Squares

https://doi.org/10.1109/TNSRE.2022.3198679

Kuang, Li-Dan ; Lin, Qiu-Hua ; Gong, Xiao-Feng ; Zhang, Jianming ; Li, Wenjun ; Li, Feng ; Calhoun, Vince D. ( January 2022 , IEEE Transactions on Neural Systems and Rehabilitation Engineering)