A Decoding Prediction Model of Flexion and Extension of Left and Right Feet from Electroencephalogram

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Abstract

Detection of limb motor functions utilizing brain signals is a significant technique in the brain signal gain model (BSM) that can be effectively employed in various biomedical applications. Our research presents a novel technique for prediction of feet motor functions by applying a deep learning model with cascading transfer learning technique to use the electroencephalogram (EEG) in the training stage. Our research deduces the electroencephalogram data (EEG) of stroke incidence to propose functioning high-tech interfaces for predicting left and right foot motor functions. This paper presents a transfer learning with several source input domains to serve a target domain with small input size. Transfer learning can reduce the learning curve effectively. The correctness of the presented model is evaluated by the abilities of motor functions in the detection of left and right feet. Extensive experiments were performed and proved that a higher accuracy was reached by the introduced BSM-EEG neural network with transfer learning. The prediction of the model accomplished 97.5% with less CPU time. These accurate results confirm that the BSM-EEG neural model has the ability to predict motor functions for brain-injured stroke therapy.

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APA

AlArfaj, A. A., Hosni Mahmoud, H. A., & Hafez, A. M. (2022). A Decoding Prediction Model of Flexion and Extension of Left and Right Feet from Electroencephalogram. Behavioral Sciences, 12(8). https://doi.org/10.3390/bs12080285

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