TY - JOUR AV - none N2 - Mental stress has been identified as the root cause of various physical and psychological disorders. Therefore, it is crucial to conduct timely diagnosis and assessment considering the severe effects of mental stress. In contrast to other health-related wearable devices, wearable or portable devices for stress assessment have not been developed yet. A major requirement for the development of such a device is a time-efficient algorithm. This study investigates the performance of computer-aided approaches for mental stress assessment. Machine learning (ML) approaches are compared in terms of the time required for feature extraction and classification. After conducting tests on data for real-time experiments, it was observed that conventional ML approaches are time-consuming due to the computations required for feature extraction, whereas a deep learning (DL) approach results in a time-efficient classification due to automated unsupervised feature extraction. This study emphasizes that DL approaches can be used in wearable devices for real-time mental stress assessment. Copyright © 2022 Al-Saggaf, Naqvi, Moinuddin, Alfakeh and Ali. N1 - cited By 5 TI - Performance Evaluation of EEG Based Mental Stress Assessment Approaches for Wearable Devices ID - scholars17084 KW - Classification (of information); Computer aided diagnosis; Computer aided instruction; Convolutional neural networks; Deep learning; Extraction; Wearable technology KW - Computer-aided diagnose; Convolutional neural network; Features extraction; Learning approach; Machine learning approaches; Mental stress; Real- time; Sliding Window; Stress assessment; Wearable devices KW - Feature extraction KW - alpha rhythm; Article; benchmarking; beta rhythm; classification; computer assisted diagnosis; controlled study; convolutional neural network; deep learning; delta rhythm; diagnostic test accuracy study; electroencephalogram; feature extraction; gamma rhythm; human; information processing; machine learning; mental stress; sensitivity and specificity; theta rhythm Y1 - 2022/// PB - Frontiers Media S.A. SN - 16625218 A1 - Al-Saggaf, U.M. A1 - Naqvi, S.F. A1 - Moinuddin, M. A1 - Alfakeh, S.A. A1 - Ali, S.S.A. JF - Frontiers in Neurorobotics UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85124986925&doi=10.3389%2ffnbot.2021.819448&partnerID=40&md5=1e7e28f385df1c76bc9ec5cc0789f813 VL - 15 ER -