Design of an fNIRS–EEG hybrid terminal for wearable BCI systems

The importance of brain–computer interfaces (BCI) is increasing, and various methods have been developed. Among the developed BCI methods, functional near-infrared spectroscopy (fNIRS) and electroencephalography (EEG) are favored due to their non-invasive feature and compact device sizes. EEG monito...

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Published in	Review of scientific instruments Vol. 95; no. 8
Main Authors	Jeong, Eugene, Seo, Minseok, Kim, Kyung-Soo
Format	Journal Article
Language	English
Published	United States American Institute of Physics 01.08.2024
Subjects	Blood flow Brain-Computer Interfaces Computer terminals Continuous radiation Electric contacts Electroencephalography Electroencephalography - instrumentation Electromagnetic interference Emitters Equipment Design Human-computer interface Humans Hybrid systems Infrared spectra Medical imaging Monitors Near infrared radiation Neurons Spectroscopy Spectroscopy, Near-Infrared - instrumentation Spectroscopy, Near-Infrared - methods Wearable Electronic Devices Wearable technology
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ISSN	0034-6748 1089-7623 1089-7623
DOI	10.1063/5.0187070

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Abstract	The importance of brain–computer interfaces (BCI) is increasing, and various methods have been developed. Among the developed BCI methods, functional near-infrared spectroscopy (fNIRS) and electroencephalography (EEG) are favored due to their non-invasive feature and compact device sizes. EEG monitors the electrical potentials generated by the activation of neurons, and fNIRS monitors the blood flow also generated by neurons, resulting in signals with different properties between the two methods. As the two BCI methods greatly differ in the characteristics of the acquired neural activity signals, for cases of estimating the intention or thought of a subject by BCI, it has been proven that further accurate information may be extracted by utilizing both methods simultaneously. Both systems are powered by electricity, and as EEG systems are greatly sensitive to electrical noises, application of two separate fNIRS and EEG systems together may result in electrical interference as the systems are required to be in contact with the skin and stray currents from the fNIRS system may flow along the surface of the skin into the EEG system. This research proposes a wearable fNIRS–EEG hybrid BCI system, where a single terminal is capable of operating both as a continuous wave fNIRS emitter and as a detector, and also as an EEG electrode. The system has been designed such that the fNIRS and EEG components are electrically separated to avoid electrical interference between each other. It is expected that by utilizing the developed fNIRS–EEG hybrid terminals, the development of BCI analysis may be further accelerated in various fields.
AbstractList	The importance of brain-computer interfaces (BCI) is increasing, and various methods have been developed. Among the developed BCI methods, functional near-infrared spectroscopy (fNIRS) and electroencephalography (EEG) are favored due to their non-invasive feature and compact device sizes. EEG monitors the electrical potentials generated by the activation of neurons, and fNIRS monitors the blood flow also generated by neurons, resulting in signals with different properties between the two methods. As the two BCI methods greatly differ in the characteristics of the acquired neural activity signals, for cases of estimating the intention or thought of a subject by BCI, it has been proven that further accurate information may be extracted by utilizing both methods simultaneously. Both systems are powered by electricity, and as EEG systems are greatly sensitive to electrical noises, application of two separate fNIRS and EEG systems together may result in electrical interference as the systems are required to be in contact with the skin and stray currents from the fNIRS system may flow along the surface of the skin into the EEG system. This research proposes a wearable fNIRS-EEG hybrid BCI system, where a single terminal is capable of operating both as a continuous wave fNIRS emitter and as a detector, and also as an EEG electrode. The system has been designed such that the fNIRS and EEG components are electrically separated to avoid electrical interference between each other. It is expected that by utilizing the developed fNIRS-EEG hybrid terminals, the development of BCI analysis may be further accelerated in various fields. The importance of brain-computer interfaces (BCI) is increasing, and various methods have been developed. Among the developed BCI methods, functional near-infrared spectroscopy (fNIRS) and electroencephalography (EEG) are favored due to their non-invasive feature and compact device sizes. EEG monitors the electrical potentials generated by the activation of neurons, and fNIRS monitors the blood flow also generated by neurons, resulting in signals with different properties between the two methods. As the two BCI methods greatly differ in the characteristics of the acquired neural activity signals, for cases of estimating the intention or thought of a subject by BCI, it has been proven that further accurate information may be extracted by utilizing both methods simultaneously. Both systems are powered by electricity, and as EEG systems are greatly sensitive to electrical noises, application of two separate fNIRS and EEG systems together may result in electrical interference as the systems are required to be in contact with the skin and stray currents from the fNIRS system may flow along the surface of the skin into the EEG system. This research proposes a wearable fNIRS-EEG hybrid BCI system, where a single terminal is capable of operating both as a continuous wave fNIRS emitter and as a detector, and also as an EEG electrode. The system has been designed such that the fNIRS and EEG components are electrically separated to avoid electrical interference between each other. It is expected that by utilizing the developed fNIRS-EEG hybrid terminals, the development of BCI analysis may be further accelerated in various fields.The importance of brain-computer interfaces (BCI) is increasing, and various methods have been developed. Among the developed BCI methods, functional near-infrared spectroscopy (fNIRS) and electroencephalography (EEG) are favored due to their non-invasive feature and compact device sizes. EEG monitors the electrical potentials generated by the activation of neurons, and fNIRS monitors the blood flow also generated by neurons, resulting in signals with different properties between the two methods. As the two BCI methods greatly differ in the characteristics of the acquired neural activity signals, for cases of estimating the intention or thought of a subject by BCI, it has been proven that further accurate information may be extracted by utilizing both methods simultaneously. Both systems are powered by electricity, and as EEG systems are greatly sensitive to electrical noises, application of two separate fNIRS and EEG systems together may result in electrical interference as the systems are required to be in contact with the skin and stray currents from the fNIRS system may flow along the surface of the skin into the EEG system. This research proposes a wearable fNIRS-EEG hybrid BCI system, where a single terminal is capable of operating both as a continuous wave fNIRS emitter and as a detector, and also as an EEG electrode. The system has been designed such that the fNIRS and EEG components are electrically separated to avoid electrical interference between each other. It is expected that by utilizing the developed fNIRS-EEG hybrid terminals, the development of BCI analysis may be further accelerated in various fields.
Author	Kim, Kyung-Soo Jeong, Eugene Seo, Minseok
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Cites_doi	10.3389/fnins.2014.00373 10.1007/s40846-021-00662-8 10.1038/nnano.2009.326 10.3389/fnhum.2018.00246 10.1109/rbme.2019.2944351 10.1177/1545968313520410 10.3389/fnbot.2017.00006 10.1186/s12938-017-0391-2 10.1007/bf00239907 10.1109/access.2021.3063120 10.3233/jad-180391 10.3389/fnhum.2019.00172 10.3390/s18020335 10.1117/1.jbo.18.5.056001 10.1016/j.ohx.2021.e00204 10.1088/1741-2552/aaaf82 10.1117/1.1427048 10.1007/s10916-018-1027-1 10.5815/ijisa.2015.06.05 10.1016/j.neuroimage.2004.02.023 10.1113/jp278775 10.1117/1.nph.4.4.040501 10.1364/boe.11.001712 10.1016/j.neuropsychologia.2015.09.012 10.1016/j.patrec.2015.07.034 10.1002/jbio.201800141 10.1088/0031-9155/51/5/n02
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Snippet	The importance of brain–computer interfaces (BCI) is increasing, and various methods have been developed. Among the developed BCI methods, functional... The importance of brain-computer interfaces (BCI) is increasing, and various methods have been developed. Among the developed BCI methods, functional...
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SubjectTerms	Blood flow Brain-Computer Interfaces Computer terminals Continuous radiation Electric contacts Electroencephalography Electroencephalography - instrumentation Electromagnetic interference Emitters Equipment Design Human-computer interface Humans Hybrid systems Infrared spectra Medical imaging Monitors Near infrared radiation Neurons Spectroscopy Spectroscopy, Near-Infrared - instrumentation Spectroscopy, Near-Infrared - methods Wearable Electronic Devices Wearable technology
Title	Design of an fNIRS–EEG hybrid terminal for wearable BCI systems
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