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Article type: Research Article
Authors: Ramkumar, N.; * | Karthika Renuka, D.
Affiliations: Department of Information Technology, PSG College of Technology, Coimbatore, Tamil Nadu, India
Correspondence: [*] Corresponding author. N. Ramkumar, Research Scholar, Department of Information Technology, PSG College of Technology Coimbatore, India. E-mail: [email protected].
Abstract: In BCI (brain-computer interface) applications, it is difficult to obtain enough well-labeled EEG data because of the expensive annotation and time-consuming data capture procedure. Conventional classification techniques that repurpose EEG data across domains and subjects lead to significant decreases in silent speech recognition classification accuracy. This research provides a supervised domain adaptation using Convolutional Neural Network framework (SDA-CNN) to tackle this problem. The objective is to provide a solution for the distribution divergence issue in the categorization of speech recognition across domains. The suggested framework involves taking raw EEG data and deriving deep features from it and the proposed feature selection method also retrieves the statistical features from the corresponding channels. Moreover, it attempts to minimize the distribution divergence caused by variations in people and settings by aligning the correlation of both the source and destination EEG characteristic dissemination. In order to obtain minimal feature distribution divergence and discriminative classification performance, the last stage entails simultaneously optimizing the loss of classification and adaption loss. The usefulness of the suggested strategy in reducing distributed divergence among the source and target Electroencephalography (EEG) data is demonstrated by extensive experiments carried out on KaraOne datasets. The suggested method achieves an average accuracy for classification of 87.4% for single-subject classification and a noteworthy average class accuracy of 88.6% for cross-subject situations, which shows that it surpasses existing cutting-edge techniques in thinking tasks. Regarding the speaking task, the model’s median classification accuracy for single-subject categorization is 86.8%, while its average classification accuracy for cross-subject classification is 87.8%. These results underscore the innovative approach of SDA-CNN to mitigating distribution discrepancies while optimizing classification performance, offering a promising avenue to enhance accuracy and adaptability in brain-computer interface applications.
Keywords: Brain-computer interface, supervised domain adaptation, Convolutional Neural Network, Electroencephalography, distribution divergence
DOI: 10.3233/JIFS-237890
Journal: Journal of Intelligent & Fuzzy Systems, vol. 46, no. 4, pp. 10713-10726, 2024
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