Frontiers Expert Perspective: Who May Benefit Most From the New Ultra Long-Term Subcutaneous EEG Monitoring?
Frontiers Expert Perspective: Who May Benefit Most From the New Ultra Long-Term Subcutaneous EEG Monitoring?
Detecting temporal lobe seizures in ultra long-term subcutaneous EEG using algorithm-based data reduction - ScienceDirect
Towards long term monitoring: Seizure detection with reduced electroencephalogram channels
Ultrafast ultrasound imaging pattern analysis reveals distinctive dynamic brain states and potent sub-network alterations in arthritic animals
Correlation of long (≥20 seconds) PGES with deltoid and biceps qEMG and
PDF) Optimizing Electrode Configurations for Wearable EEG Seizure Detection Using Machine Learning
Novel Electrode Architecture for Subgaleal Electroencephalography: A Feasibility Study
PDF) New disposable forehead electrode set with excellent signal quality and imaging compatibility
Weak self-supervised learning for seizure forecasting: a feasibility study
PDF) Expert Perspective: Who May Benefit Most From the New Ultra Long-Term Subcutaneous EEG Monitoring?
e555nbgfb
Frontiers Seizure Forecasting Using a Novel Sub-Scalp Ultra-Long Term EEG Monitoring System
Detecting temporal lobe seizures in ultra long-term subcutaneous EEG using algorithm-based data reduction - ScienceDirect
Weak self-supervised learning for seizure forecasting: a feasibility study