Cross Subject Mental Work Load Classification from Electroencephalographic Signals with Automatic Artifact Rejection and Muscle Pruning
Purpose of this study was to understand the effect of automatic muscle pruning of electroencephalograph on cognitive work load prediction. Pruning was achieved using an automatic Independent Component Analysis (ICA) based component classification. Initially, raw data from EEG recording was used for...
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| Published in | Brain Informatics and Health pp. 295 - 303 |
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| Main Authors | , , , , , , |
| Format | Book Chapter |
| Language | English |
| Published |
Cham
Springer International Publishing
2016
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| Series | Lecture Notes in Computer Science |
| Subjects | |
| Online Access | Get full text |
| ISBN | 3319471023 9783319471020 |
| ISSN | 0302-9743 1611-3349 |
| DOI | 10.1007/978-3-319-47103-7_29 |
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| Abstract | Purpose of this study was to understand the effect of automatic muscle pruning of electroencephalograph on cognitive work load prediction. Pruning was achieved using an automatic Independent Component Analysis (ICA) based component classification. Initially, raw data from EEG recording was used for prediction, this result was then compared with mental work load prediction results from muscle-pruned EEG data. This study used Support Vector Machine (SVM) with Linear Kernel for cognitive work load prediction from EEG data. Initial part of the study was to learn a classification model from the whole data, whereas the second part was to learn the model from a set of subjects and predict the mental work load for an unseen subject by the model. The experimental results show that an accuracy of nearly 100 % is possible with ICA and automatic pruning based pre-processing. Cross subject prediction significantly improved from a mean accuracy of 54 % to 69 % for an unseen subject with the pre-processing. |
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| AbstractList | Purpose of this study was to understand the effect of automatic muscle pruning of electroencephalograph on cognitive work load prediction. Pruning was achieved using an automatic Independent Component Analysis (ICA) based component classification. Initially, raw data from EEG recording was used for prediction, this result was then compared with mental work load prediction results from muscle-pruned EEG data. This study used Support Vector Machine (SVM) with Linear Kernel for cognitive work load prediction from EEG data. Initial part of the study was to learn a classification model from the whole data, whereas the second part was to learn the model from a set of subjects and predict the mental work load for an unseen subject by the model. The experimental results show that an accuracy of nearly 100 % is possible with ICA and automatic pruning based pre-processing. Cross subject prediction significantly improved from a mean accuracy of 54 % to 69 % for an unseen subject with the pre-processing. |
| Author | Fitzgibbon, S. P. Pope, K. J. Kunjan, Sajeev Powers, D. M. W. Lewis, T. W. Willoughby, J. O. Grummett, T. S. |
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| DOI | 10.1007/978-3-319-47103-7_29 |
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| Editor | Khazanchi, Deepak Ali, Hesham Ascoli, Giorgio A. Shi, Yong Hawrylycz, Michael |
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| Snippet | Purpose of this study was to understand the effect of automatic muscle pruning of electroencephalograph on cognitive work load prediction. Pruning was achieved... |
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| SubjectTerms | Brain Computer Interface Independent Component Analysis Mental Workload Support Vector Machine Work Load |
| Title | Cross Subject Mental Work Load Classification from Electroencephalographic Signals with Automatic Artifact Rejection and Muscle Pruning |
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