Multimodal data analysis of epileptic EEG and rs-fMRI via deep learning and edge computing
作者:
Highlights:
• An edge computing framework for real-time and ubiquitous processing of medical big data such as EEG, iEEG and fMRI.
• Multimodal data analysis method for localization and prediction of epileptogenicity using independently acquired EEG and rs-fMRI data.
• An unsupervised feature extraction model for identification of preictal and non-preictal time intervals in electrographic data via CNN deep learning.
• Multimodal analysis of rs-fMRI and EEG via LSTM deep learning.
摘要
•An edge computing framework for real-time and ubiquitous processing of medical big data such as EEG, iEEG and fMRI.•Multimodal data analysis method for localization and prediction of epileptogenicity using independently acquired EEG and rs-fMRI data.•An unsupervised feature extraction model for identification of preictal and non-preictal time intervals in electrographic data via CNN deep learning.•Multimodal analysis of rs-fMRI and EEG via LSTM deep learning.
论文关键词:Autonomic computing,Deep learning,Edge computing,Multimodal analysis EEG,FMRI,Brain–computer interface,Convolutional neural network
论文评审过程:Received 12 November 2018, Revised 26 December 2019, Accepted 31 January 2020, Available online 19 February 2020, Version of Record 24 February 2020.
论文官网地址:https://doi.org/10.1016/j.artmed.2020.101813
