Towards fNIRS Hyperfeedback: A Feasibility Study on Real-Time Interbrain Synchrony

Autor(en)
Kathrin Kostorz, Trinh Nguyen, Yafeng Pan, Filip Melinšcak, David Steyrl, Yi Hu, Bettina Sorger, Stefanie Hoehl, Frank Scharnowski
Abstrakt

Social interaction is of fundamental importance to humans. Prior research has highlighted the link between interbrain synchrony and positive outcomes in human social interaction.

Neurofeedback is an established method to train one’s brain activity and might offer a possibility to increase interbrain synchrony. Consequently, it would be advantageous to determine the feasibility of creating a neurofeedback system for enhancing interbrain synchrony to benefit human interaction.

In this study, we investigated whether the most widely employed metric for interbrain synchrony, namely wavelet transform coherence, can be assessed accurately in near real-time using functional near-infrared spectroscopy (fNIRS), which is recognized for its mobility and ecological suitability for interactive research. To this end, we have undertaken a comprehensive approach encompassing simulations and a re-evaluation of two human-interaction datasets. Our findings indicate the potential for a stable near real-time measurement of wavelet transform coherence for integration durations of about one minute. This would align well with the methodology of an intermittent neurofeedback procedure.

Our investigation lays the technical foundation for an fNIRS-based system to measure interbrain synchrony in near real-time. This advancement is crucial for the future development of a neurofeedback training system tailored to enhance interbrain synchrony to potentially benefit human interaction.

Organisation(en)
Institut für Psychologie der Kognition, Emotion und Methoden, Institut für Psychologie der Entwicklung und Bildung
Externe Organisation(en)
Istituto italiano di tecnologia, Zhejiang University (ZJU), East China Normal University, Maastricht University (UM)
DOI
https://doi.org/10.1101/2023.12.11.570765
Publikationsdatum
12-2023
ÖFOS 2012
501014 Neuropsychologie, 202004 Brain-Computer Interface, 301401 Hirnforschung
Link zum Portal
https://ucrisportal.univie.ac.at/de/publications/c12bb647-e5e7-4862-bc9a-3a056e3b4be4