Effectiveness Evaluation of Real-Time Scalp Signal Separating Algorithm on Near-Infrared Spectroscopy Neurofeedback

Wei Chun Ung; Tsukasa Funane; Takusige Katura; Hiroki Sato; Tong Boon Tang; Ahmad Fadzil M. Hani; Masashi Kiguchi

doi:10.1109/JBHI.2017.2723024

Effectiveness Evaluation of Real-Time Scalp Signal Separating Algorithm on Near-Infrared Spectroscopy Neurofeedback

Wei Chun Ung, Tsukasa Funane, Takusige Katura, Hiroki Sato, Tong Boon Tang, Ahmad Fadzil M. Hani, Masashi Kiguchi

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

Near-infrared spectroscopy (NIRS), one of the candidates to be used in a neurofeedback system or brain-computer interface (BCI), measures the brain activity by monitoring the changes in cerebral hemoglobin concentration. However, hemodynamic changes in the scalp may affect the NIRS signals. In order to remove the superficial signals when NIRS is used in a neurofeedback system or BCI, real-time processing is necessary. Real-time scalp signal separating (RT-SSS) algorithm, which is capable of separating the scalp-blood signals from NIRS signals obtained in real-time, may thus be applied. To demonstrate its effectiveness, two separate neurofeedback experiments were conducted. In the first experiment, the feedback signal was the raw NIRS signal recorded while in the second experiment, deep signal extracted using RT-SSS algorithm was used as the feedback signal. In both experiments, participants were instructed to control the feedback signal to follow a predefined track. Accuracy scores were calculated based on the differences between the trace controlled by feedback signal and the targeted track. Overall, the second experiment yielded better performance in terms of accuracy scores. These findings proved that RT-SSS algorithm is beneficial for neurofeedback.

Original language	English
Pages (from-to)	1148-1156
Number of pages	9
Journal	IEEE Journal of Biomedical and Health Informatics
Volume	22
Issue number	4
DOIs	https://doi.org/10.1109/JBHI.2017.2723024
Publication status	Published - 2018 Jul
Externally published	Yes

Keywords

Brain-computer interface
near-infrared spectroscopy
neurofeedback
real-time scalp signal separating algorithm

ASJC Scopus subject areas

Biotechnology
Computer Science Applications
Electrical and Electronic Engineering
Health Information Management

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10.1109/JBHI.2017.2723024

Cite this

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title = "Effectiveness Evaluation of Real-Time Scalp Signal Separating Algorithm on Near-Infrared Spectroscopy Neurofeedback",

abstract = "Near-infrared spectroscopy (NIRS), one of the candidates to be used in a neurofeedback system or brain-computer interface (BCI), measures the brain activity by monitoring the changes in cerebral hemoglobin concentration. However, hemodynamic changes in the scalp may affect the NIRS signals. In order to remove the superficial signals when NIRS is used in a neurofeedback system or BCI, real-time processing is necessary. Real-time scalp signal separating (RT-SSS) algorithm, which is capable of separating the scalp-blood signals from NIRS signals obtained in real-time, may thus be applied. To demonstrate its effectiveness, two separate neurofeedback experiments were conducted. In the first experiment, the feedback signal was the raw NIRS signal recorded while in the second experiment, deep signal extracted using RT-SSS algorithm was used as the feedback signal. In both experiments, participants were instructed to control the feedback signal to follow a predefined track. Accuracy scores were calculated based on the differences between the trace controlled by feedback signal and the targeted track. Overall, the second experiment yielded better performance in terms of accuracy scores. These findings proved that RT-SSS algorithm is beneficial for neurofeedback.",

keywords = "Brain-computer interface, near-infrared spectroscopy, neurofeedback, real-time scalp signal separating algorithm",

author = "Ung, {Wei Chun} and Tsukasa Funane and Takusige Katura and Hiroki Sato and Tang, {Tong Boon} and Hani, {Ahmad Fadzil M.} and Masashi Kiguchi",

note = "Funding Information: Manuscript received January 13, 2017; revised May 19, 2017 and June 28, 2017; accepted June 29, 2017. Date of publication July 3, 2017; date of current version June 29, 2018. This work was supported in part by Hitachi, Ltd., Japan and in part by the Ministry of Higher Education, Malaysia, under HiCOE fund scheme. (Corresponding author: Masashi Kiguchi.) W. C. Ung and T. B. Tang are with the Centre for Intelligent Signal and Imaging Research, Universiti Teknologi PETRONAS, Tronoh 32610, Malaysia (e-mail: ungweichun@gmail.com; tongboon.tang@utp. edu.my). A. F. M. Hani was with Universiti Teknologi PETRONAS. Publisher Copyright: {\textcopyright} 2013 IEEE.",

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AU - Ung, Wei Chun

AU - Funane, Tsukasa

AU - Katura, Takusige

AU - Sato, Hiroki

AU - Tang, Tong Boon

AU - Hani, Ahmad Fadzil M.

AU - Kiguchi, Masashi

N1 - Funding Information: Manuscript received January 13, 2017; revised May 19, 2017 and June 28, 2017; accepted June 29, 2017. Date of publication July 3, 2017; date of current version June 29, 2018. This work was supported in part by Hitachi, Ltd., Japan and in part by the Ministry of Higher Education, Malaysia, under HiCOE fund scheme. (Corresponding author: Masashi Kiguchi.) W. C. Ung and T. B. Tang are with the Centre for Intelligent Signal and Imaging Research, Universiti Teknologi PETRONAS, Tronoh 32610, Malaysia (e-mail: ungweichun@gmail.com; tongboon.tang@utp. edu.my). A. F. M. Hani was with Universiti Teknologi PETRONAS. Publisher Copyright: © 2013 IEEE.

PY - 2018/7

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N2 - Near-infrared spectroscopy (NIRS), one of the candidates to be used in a neurofeedback system or brain-computer interface (BCI), measures the brain activity by monitoring the changes in cerebral hemoglobin concentration. However, hemodynamic changes in the scalp may affect the NIRS signals. In order to remove the superficial signals when NIRS is used in a neurofeedback system or BCI, real-time processing is necessary. Real-time scalp signal separating (RT-SSS) algorithm, which is capable of separating the scalp-blood signals from NIRS signals obtained in real-time, may thus be applied. To demonstrate its effectiveness, two separate neurofeedback experiments were conducted. In the first experiment, the feedback signal was the raw NIRS signal recorded while in the second experiment, deep signal extracted using RT-SSS algorithm was used as the feedback signal. In both experiments, participants were instructed to control the feedback signal to follow a predefined track. Accuracy scores were calculated based on the differences between the trace controlled by feedback signal and the targeted track. Overall, the second experiment yielded better performance in terms of accuracy scores. These findings proved that RT-SSS algorithm is beneficial for neurofeedback.

AB - Near-infrared spectroscopy (NIRS), one of the candidates to be used in a neurofeedback system or brain-computer interface (BCI), measures the brain activity by monitoring the changes in cerebral hemoglobin concentration. However, hemodynamic changes in the scalp may affect the NIRS signals. In order to remove the superficial signals when NIRS is used in a neurofeedback system or BCI, real-time processing is necessary. Real-time scalp signal separating (RT-SSS) algorithm, which is capable of separating the scalp-blood signals from NIRS signals obtained in real-time, may thus be applied. To demonstrate its effectiveness, two separate neurofeedback experiments were conducted. In the first experiment, the feedback signal was the raw NIRS signal recorded while in the second experiment, deep signal extracted using RT-SSS algorithm was used as the feedback signal. In both experiments, participants were instructed to control the feedback signal to follow a predefined track. Accuracy scores were calculated based on the differences between the trace controlled by feedback signal and the targeted track. Overall, the second experiment yielded better performance in terms of accuracy scores. These findings proved that RT-SSS algorithm is beneficial for neurofeedback.

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KW - near-infrared spectroscopy

KW - neurofeedback

KW - real-time scalp signal separating algorithm

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ER -

Effectiveness Evaluation of Real-Time Scalp Signal Separating Algorithm on Near-Infrared Spectroscopy Neurofeedback

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Keywords

ASJC Scopus subject areas

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