Brain-computer interface of focus and motor imagery using wavelet and recurrent neural networks

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Abstract

Brain-computer interface is a technology that allows operating a device without involving muscles and sound, but directly from the brain through the processed electrical signals. The technology works by capturing electrical or magnetic signals from the brain, which are then processed to obtain information contained therein. Usually, BCI uses information from electroencephalogram (EEG) signals based on various variables reviewed. This study proposed BCI to move external devices such as a drone simulator based on EEG signal information. From the EEG signal was extracted to get motor imagery (MI) and focus variable using wavelet. Then, they were classified by recurrent neural networks (RNN). In overcoming the problem of vanishing memory from RNN, was used long short-term memory (LSTM). The results showed that BCI used wavelet, and RNN can drive external devices of non-training data with an accuracy of 79.6%. The experiment gave AdaDelta model is better than the Adam model in terms of accuracy and value losses. Whereas in computational learning time, Adam's model is faster than AdaDelta's model.

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Djamal, E. C., & Putra, R. D. (2020). Brain-computer interface of focus and motor imagery using wavelet and recurrent neural networks. Telkomnika (Telecommunication Computing Electronics and Control), 18(5), 2748–2756. https://doi.org/10.12928/TELKOMNIKA.v18i5.14899

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