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Toward a Brain-Computer Interface- and Internet of Things-Based Smart Ward Collaborative System Using Hybrid Signals

Xugang Cai, Jiahui Pan

2022Journal of Healthcare Engineering23 citationsDOIOpen Access PDF

Abstract

This study proposes a brain-computer interface (BCI)- and Internet of Things (IoT)-based smart ward collaborative system using hybrid signals. The system is divided into hybrid asynchronous electroencephalography (EEG)-, electrooculography (EOG)- and gyro-based BCI control system and an IoT monitoring and management system. The hybrid BCI control system proposes a GUI paradigm with cursor movement. The user uses the gyro to control the cursor area selection and uses blink-related EOG to control the cursor click. Meanwhile, the attention-related EEG signals are classified based on a support-vector machine (SVM) to make the final judgment. The judgment of the cursor area and the judgment of the attention state are reduced, thereby reducing the false operation rate in the hybrid BCI system. The accuracy in the hybrid BCI control system was 96.65 ± 1.44%, and the false operation rate and command response time were 0.89 ± 0.42 events/min and 2.65 ± 0.48 s, respectively. These results show the application potential of the hybrid BCI control system in daily tasks. In addition, we develop an architecture to connect intelligent things in a smart ward based on narrowband Internet of Things (NB-IoT) technology. The results demonstrate that our system provides superior communication transmission quality.

Topics & Concepts

Brain–computer interfaceComputer scienceElectrooculographyInterface (matter)Hybrid systemSupport vector machineControl systemHuman–computer interactionElectroencephalographyAsynchronous communicationArtificial intelligenceEye movementMachine learningComputer networkEngineeringParallel computingMaximum bubble pressure methodPsychiatryElectrical engineeringPsychologyBubbleEEG and Brain-Computer InterfacesGaze Tracking and Assistive TechnologyNeuroscience and Neural Engineering
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