scholarly journals On an unsupervised method for parameter selection for the elastic net

2021 ◽  
Vol 4 (6) ◽  
pp. 1-36
Author(s):  
Zeljko Kereta ◽  
◽  
Valeriya Naumova
Keyword(s):  
Statistical Learning ◽  
Selection Criteria ◽  
State Of The Art ◽  
Regularization Parameter ◽  
Parameter Selection ◽  
Elastic Net ◽  
Data Driven ◽  
Regularization Theory ◽  
Automated Algorithm ◽  
Selection For

<abstract><p>Despite recent advances in regularization theory, the issue of parameter selection still remains a challenge for most applications. In a recent work the framework of statistical learning was used to approximate the optimal Tikhonov regularization parameter from noisy data. In this work, we improve their results and extend the analysis to the elastic net regularization. Furthermore, we design a data-driven, automated algorithm for the computation of an approximate regularization parameter. Our analysis combines statistical learning theory with insights from regularization theory. We compare our approach with state-of-the-art parameter selection criteria and show that it has superior accuracy.</p></abstract>

scholarly journals Data-Driven Regularization Parameter Selection in Dynamic MRI

2021 ◽  
Vol 7 (2) ◽  
pp. 38
Author(s):  
Matti Hanhela ◽  
Olli Gröhn ◽  
Mikko Kettunen ◽  
Kati Niinimäki ◽  
Marko Vauhkonen ◽  
...  
Keyword(s):  
Regularization Parameter ◽  
Dynamic Mri ◽  
Parameter Selection ◽  
Data Driven ◽  
Reference Image ◽  
Total Variation Regularization ◽  
Test Case ◽  
Regularization Parameters ◽  
S Curve ◽  
Regularization Parameter Selection

In dynamic MRI, sufficient temporal resolution can often only be obtained using imaging protocols which produce undersampled data for each image in the time series. This has led to the popularity of compressed sensing (CS) based reconstructions. One problem in CS approaches is determining the regularization parameters, which control the balance between data fidelity and regularization. We propose a data-driven approach for the total variation regularization parameter selection, where reconstructions yield expected sparsity levels in the regularization domains. The expected sparsity levels are obtained from the measurement data for temporal regularization and from a reference image for spatial regularization. Two formulations are proposed. Simultaneous search for a parameter pair yielding expected sparsity in both domains (S-surface), and a sequential parameter selection using the S-curve method (Sequential S-curve). The approaches are evaluated using simulated and experimental DCE-MRI. In the simulated test case, both methods produce a parameter pair and reconstruction that is close to the root mean square error (RMSE) optimal pair and reconstruction. In the experimental test case, the methods produce almost equal parameter selection, and the reconstructions are of high perceived quality. Both methods lead to a highly feasible selection of the regularization parameters in both test cases while the sequential method is computationally more efficient.

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