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Motor Intention Decoding from the Upper Limb by Graph Convolutional Network Based on Functional Connectivity

Naishi Feng, Fo Hu, Hong Wang, Bin Zhou

2021International Journal of Neural Systems29 citationsDOI

Abstract

Decoding brain intention from noninvasively measured neural signals has recently been a hot topic in brain-computer interface (BCI). The motor commands about the movements of fine parts can increase the degrees of freedom under control and be applied to external equipment without stimulus. In the decoding process, the classifier is one of the key factors, and the graph information of the EEG was ignored by most researchers. In this paper, a graph convolutional network (GCN) based on functional connectivity was proposed to decode the motor intention of four fine parts movements (shoulder, elbow, wrist, hand). First, event-related desynchronization was analyzed to reveal the differences between the four classes. Second, functional connectivity was constructed by using synchronization likelihood (SL), phase-locking value (PLV), H index (H), mutual information (MI), and weighted phase-lag index (WPLI) to acquire the electrode pairs with a difference. Subsequently, a GCN and convolutional neural networks (CNN) were performed based on functional topological structures and time points, respectively. The results demonstrated that the proposed method achieved a decoding accuracy of up to 92.81% in the four-class task. Besides, the combination of GCN and functional connectivity can promote the development of BCI.

Topics & Concepts

Decoding methodsComputer scienceClassifier (UML)Convolutional neural networkBrain–computer interfaceGraphPattern recognition (psychology)Artificial intelligenceFunctional connectivityNeural decodingConvolutional codeKey (lock)Synchronization (alternating current)Motor imageryElectroencephalographyMutual informationSpeech recognitionRecurrent neural networkGraph theoryTheoretical computer scienceEEG and Brain-Computer InterfacesFunctional Brain Connectivity StudiesNeurological disorders and treatments
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