2021
DOI: 10.1109/access.2021.3112257
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Stimulus Paradigm for an Asynchronous Concurrent SSVEP and EOG Based BCI Speller System

Abstract: The brain computer interface (BCI) speller system can be classified into synchronous and asynchronous type. In synchronous type, one of the target characters is selected with specific interval periodically even if the user is making or not making attention on the target, whereas, in asynchronous case, the target character will not be selected until a confirmation signal is received from the user. In this proposed study a novel oddball stimulus paradigm is introduced on the hybrid steady state visual evoked pot… Show more

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Cited by 3 publications
(1 citation statement)
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“…An ideal noninvasive BCI implied great application potential in various fields, including brain science research, communication, disease diagnosis and treatment, disabled auxiliary, , daily tasks, emotion detection, virtual reality technologies, and military application, etc. By continuously advancing electrode technology through improvements in materials and design, as well as enhancing performance, multifunctional integration, and multimodal collaboration, noninvasive BCI is poised to significantly propel the advancement of intelligent medical systems and could even revolutionize our way of life. Here, we sketch out the technological roadmap for the development of noninvasive BCI electrode technology from three dimensions: Materials and Design; Performances; Mode and Function (Figure ).…”
Section: Challenges and Perspectivesmentioning
confidence: 99%
“…An ideal noninvasive BCI implied great application potential in various fields, including brain science research, communication, disease diagnosis and treatment, disabled auxiliary, , daily tasks, emotion detection, virtual reality technologies, and military application, etc. By continuously advancing electrode technology through improvements in materials and design, as well as enhancing performance, multifunctional integration, and multimodal collaboration, noninvasive BCI is poised to significantly propel the advancement of intelligent medical systems and could even revolutionize our way of life. Here, we sketch out the technological roadmap for the development of noninvasive BCI electrode technology from three dimensions: Materials and Design; Performances; Mode and Function (Figure ).…”
Section: Challenges and Perspectivesmentioning
confidence: 99%