Abstract
Brain-computer interfaces (BCIs) acquire electroencephalogram (EEG) signals and interpret them into a command that helps people with severe motor disabilities using single channel. The goal of BCI is to achieve a prototype that supports disabled people to develop the relevant function. Various studies have been implemented in the literature to achieve a superior design using multi-channel EEG signals. This paper proposed a novel framework for the automatic P300 detection-based BCI model using a single EEG electrode. In the present study, we introduced a denoising approach using the bandpass filter technique followed by the transformation of scalogram images using continuous wavelet transform. The derived images were trained and validated using a deep neural network based on the transfer learning approach. This paper presents a BCI model based on the deep network that delivers higher performance in terms of classification accuracy and bitrate for disabled subjects using a single-channel EEG signal. The proposed P300 based BCI model has the highest average information transfer rates of 13.23 to 26.48 bits/min for disabled subjects. The classification performance has shown that the deep network based on the transfer learning approach can offer comparable performance with other state-of-the-art-method.
Highlights
2.1 The P300 based on EEG signalThe occipital lobe principally holds the regions related to vision-related tasks [11]
This paper presents a Brain-computer interfaces (BCIs) model based on the deep network that delivers higher performance in terms of classification accuracy and bitrate for disabled subjects using a single-channel EEG signal
This paper presents a deep neural network-based BCI model for disabled subjects using P300 but with single electrode
Summary
2.1 The P300 based on EEG signalThe occipital lobe principally holds the regions related to vision-related tasks [11]. The authors in [10] were the first to use the P300 as a signal in a brain-computer interface. They demonstrated the P300 model using locked-in patients to spell the words after selecting the letters of 26 alphabets with some symbols. Sellers and Donchin [10] estimate the BCI model that works by identifying a P300 elicited task-driven stimuli. They used four samples and experimented with their model over three subjects and proved that P300 based BCI model helps the patients suffering from ALS
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