Brain-computer interface based on steady-state visually evoked potentials : Fundamental study on classification of attended stimulus based on amplitude change
| Autor: | IZUOKA, Daisuke, SASAYAMA, Teruyoshi, KAWAGUCHI, Hirokazu, KOBAYASHI, Tetsuo |
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| Jazyk: | japonština |
| Rok vydání: | 2011 |
| Předmět: | |
| Zdroj: | 電子情報通信学会技術研究報告. NC, ニューロコンピューティング. 111(96):91-96 |
| ISSN: | 0913-5685 |
| Popis: | 脳波(electroencephalogram:EEG)に基づくBCI(brain-computer interface)では計測されたEEGから特徴抽出を高精度に行うことが重要である.本研究では定常視覚誘発電位に基づくBCIに着目し, 2つの異なる周波数で点滅する視覚刺激のどちらに被験者が注意を向けているかをEEGから判別する新たな手法の提案を行った.先行研究では被験者は常に刺激に注意を向けているという前提で研究されており, 疲労などによって注意がそれることを想定していない.そこで短時間での特徴抽出を念頭に置き, 計測されたEEGに狭帯域バンドパスフィルタを施し, 主成分分析と独立成分分析を用いて誘発成分とノイズを分離後, 誘発成分の短い時間幅毎での振幅値にcommon spatial patternを施して特徴を抽出し, サポートベクターマシンを用いて判別を行なった.全被験者平均の判別正答率は約70%であり, BCIへの実用に向けて提案した解析手法の有用性が示された. In BCI with EEGs, it is important to extract features precisely using signal processing techniques. In this study, we focused on a BCI based on SSVEPs (steady-state visually evoked potentials) and investigated the method to analyze SSVEPs and examined classification accuracy when subjects focused on one of two visual stimuli flickering at different frequencies. Most of previous studies performed on this kind of BCI assume that subjects continued to attend on stimuli and do not consider the effects on attention by fatigue. Here, we performed the feature extraction in the short time period. After applied band pass filter tuned at narrowband stimulus frequency for measured EEGs, we separated signals and noises by using principal component analysis and independent component analysis. Subsequently, we extracted features by applying common spatial pattern obtained to amplitude in each short analysis period of the ingredient corresponding to signals. Finally, the attended stimulus was determined by classifying the features with support vector machine. A classification accuracy rate in all subjects was about 70%. This demonstrates the feasibility of the proposal method as a BCI. 本文データは学協会の許諾に基づきCiNiiから複製したものである |
| Databáze: | OpenAIRE |
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