Cross-Subject Classification of Effectiveness in Performing Cognitive Tasks Using Resting-State EEG

Steiner, Helen; Mikheev, Ilya; Martynova, Olga

doi:10.3390/app13116606

Cited by 2 publications

References 34 publications

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Detecting cognitive traits and occupational proficiency using EEG and statistical inference

Mikheev,

Steiner,

Martynova

2024

Sci Rep

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Machine learning (ML) is widely used in classification tasks aimed at detecting various cognitive states or neurological diseases using noninvasive electroencephalogram (EEG) time series. However, successfully detecting specific cognitive skills in a healthy population, independent of subject, remains challenging. This study compared the subject-independent classification performance of three different pipelines: supervised and Riemann projections with logistic regression and handcrafted power spectral features with light gradient boosting machine (LightGBM). 128-channel EEGs were recorded from 26 healthy volunteers while they solved arithmetic, logical, and verbal tasks. The participants were divided into two groups based on their higher education and occupation: specialists in mathematics and humanities. The balanced accuracy of the education type was significantly above chance for all pipelines: 0.84–0.89, 0.85–0.88, and 0.86–0.88 for each type of task, respectively. All three pipelines allowed us to distinguish mathematical proficiency based on learning experience with different trade-offs between performance and explainability. Our results suggest that ML approaches could also be effective for recognizing individual cognitive traits using EEG.

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Detecting cognitive traits and occupational proficiency using EEG and statistical inference

Mikheev,

Steiner,

Martynova

2024

Sci Rep

Self Cite

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Revolutionizing Learning Experiences by Enhancing Learning Proficiency Using Artificial Intelligence and Human-Computer Interaction

Shaw,

Kalia,

Mohanty

2024

Harnessing Artificial Emotional Intelligence for Improved Human-Computer Interactions

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This research chapter explores the collaborative integration of electroencephalography (EEG), artificial intelligence (AI), machine learning (ML), and pedagogy to revolutionize human activity recognition within educational settings. A primary focus lies in the utilization of ML models to scrutinize EEG data, presenting a groundbreaking approach for the early detection and classification of neurological disorders. The study reveals promising correlations between cognitive performance and character skills, unraveling their pivotal roles in shaping learning behavior. Furthermore, the investigation assesses the transformative impact of virtual reality (VR) on cognitive load within multimedia learning environments, shed- ding light on the intricate dynamics that VR introduces to the educational landscape. The utilization of brain-computer interfaces (BCIs) in mainstream education emerges as a key exploration, showcasing the potential of BCIs to bridge the gap between technological innovation and traditional learning methodologies. It includes the analysis of cognitive load, the examination of environmental and postural effects on learning outcomes, the development of robust seizure detection systems, and the evaluation of student engagement in online learning platforms. The research findings collectively offer a holistic understanding of how integrated technologies can not only enhance educational practices but also pave the way for a more personalized and adaptive learning experience. This study thus underscores the transformative potential of combining neuroscience, AI, and pedagogy to shape the future of education.

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Cross-Subject Classification of Effectiveness in Performing Cognitive Tasks Using Resting-State EEG

Cited by 2 publications

References 34 publications

Detecting cognitive traits and occupational proficiency using EEG and statistical inference

Detecting cognitive traits and occupational proficiency using EEG and statistical inference

Revolutionizing Learning Experiences by Enhancing Learning Proficiency Using Artificial Intelligence and Human-Computer Interaction

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