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ID 112341
著者
キーワード
Electroencephalogram
Preference
Favorite sounds
Simple electroencephalography
Gray association degree
Support vector machine
資料タイプ
学術雑誌論文
抄録
This paper introduces an electroencephalogram (EEG) analysis method to detect preferences for particular sounds. Our study aims to create novel brain–computer interfaces (BMIs) to control human mental (NBMICM), which are used to detect human mental conditions i.e., preferences, thinking, and consciousness, choose stimuli to control these mental conditions, and evaluate these choices. It is important to detect the preferences on stimuli. If the stimuli related to the preference can be detected, the NBCIMC can provide stimuli to the user based on their emotions by detecting their favorite stimuli. The proposed method adopted EEG recording technique, extraction techniques of EEG features and detection methods of preferences. EEG recording employs a simple electroencephalograph, for which the measurement position is the left frontal lobe (Fp1) of the brain. We assume that the differences of the EEG activities on the patterns of preference are expressed in the association between the changes of the power spectra on each frequency band of the EEG. To calculate the association, we employ the gray theory model. The EEG feature is extracted by calculating the gray association degree, then, the preferences are detect using a support vector machine (SVM). Experiments are conducted to test the effectiveness of this method, which is validated by a mean accuracy rate >88% on the favorite sound detection. These results suggest that the detection of subject’s favorite sounds becomes easy when the EEG signals are analyzed while the gray associate degrees are used as the EEG feature and the SVM is used as the classifier.
掲載誌名
Advances in Science, Technology and Engineering Systems Journal
ISSN
24156698
出版者
ASTES
3
5
開始ページ
105
終了ページ
108
発行日
2018-09-22
権利情報
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
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出版社版DOI
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言語
eng
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出版社版
部局
理工学系