ADHD classification using auto-encoding neural network and binary hypothesis testing
作者:
Highlights:
• A deep-learning-based ADHD classification framework is proposed by using a binary hypothesis testing of test data.
• Under a label hypothesis, functional connectivies of test data are used in the feature selection of training data.
• The high-level features are learned from the selected features of training data via a modified auto-coding network.
• A variability score is adopted to measure the clustering performance of these learned high-level features.
• A label is given to test data by the variability score comparison on the high-level features under binary hypotheses.
摘要
•A deep-learning-based ADHD classification framework is proposed by using a binary hypothesis testing of test data.•Under a label hypothesis, functional connectivies of test data are used in the feature selection of training data.•The high-level features are learned from the selected features of training data via a modified auto-coding network.•A variability score is adopted to measure the clustering performance of these learned high-level features.•A label is given to test data by the variability score comparison on the high-level features under binary hypotheses.
论文关键词:ADHD classification,Auto-encoding neural network,Binary hypothesis testing,Functional connectivity,SVM-RFE
论文评审过程:Received 30 January 2021, Revised 11 October 2021, Accepted 3 November 2021, Available online 16 November 2021, Version of Record 17 November 2021.
论文官网地址:https://doi.org/10.1016/j.artmed.2021.102209
