Litcius/Paper detail

EOG-Based HCI System for Quadcopter Navigation

Sohrob Milanizadeh, Javad Safaie

2020IEEE Transactions on Instrumentation and Measurement31 citationsDOI

Abstract

Human-computer interface (HCI) systems are extending their boundaries in our daily life and becoming an important subject in biomedical engineering. Electrooculogram (EOG) signal as an input for such systems stems from the corneoretinal standing potential, which can be used for monitoring human eye rotation. Higher amplitude, better signal-to-noise ratio, and much easier recording conditions compared with electroencephalography, make it an important input modality for HCI systems. In this article, real-time processing and cost-effective (<; 100$) HCI system was designed and developed based on the EOG signals. The required electrodes were embedded in updated eyeglasses for easy electrode placement over the subject's face. EOG signals were acquired by the subject's eye movement toward the four middle parts of the screen edges of a laptop placed in front of them. The system training for each subject ameliorated system withstanding against the blink and wrinkle artifact. Finally, the required commands for quadcopter navigation (up, down, left, and right) generated with 0.6-s total delay and 94.8% of system accuracy in detecting the correct eye movements. A real quadcopter navigation experiment based on the standard navigation interface and the developed HCI system represented the system accuracy, robustness, and usefulness.

Topics & Concepts

QuadcopterComputer scienceElectrooculographyComputer visionLaptopInterface (matter)Artificial intelligenceRobustness (evolution)SimulationEye movementArtifact (error)Noise (video)Human–computer interactionEngineeringParallel computingBubbleBiochemistryChemistryMaximum bubble pressure methodOperating systemImage (mathematics)GeneAerospace engineeringGaze Tracking and Assistive TechnologyEEG and Brain-Computer InterfacesRetinal Imaging and Analysis