Saved in:
Bibliographic Details
Main Authors: Lai, Sinyu, Li, Wanhui, Amano, Kaoru, Rekimoto, Jun
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.05568
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866908306539282432
author Lai, Sinyu
Li, Wanhui
Amano, Kaoru
Rekimoto, Jun
author_facet Lai, Sinyu
Li, Wanhui
Amano, Kaoru
Rekimoto, Jun
contents Inter-brain synchronization (IBS), the alignment of neural activities between individuals, is a fundamental mechanism underlying effective social interactions and communication. Prior research has demonstrated that IBS can occur during collaborative tasks and is deeply connected to communication effectiveness. Building on these findings, recent investigations reveal that IBS happens during remote interactions, implying that brain activities between individuals can synchronize despite latency and physical separation. However, the conditions under which this synchronization occurs or is disrupted in remote settings, especially the effect of latency, are not fully understood. This study investigates how varying transmission latency affects IBS, in order to identify thresholds where synchronization is disrupted. Using electroencephalography measurements quantified through Phase Locking Value -- a metric that captures synchronization between brainwave phases -- we first confirm synchronization under face-to-face conditions and then observe changes in IBS across remote communication scenarios. Our findings reveal that IBS can occur during remote collaboration, but is critically dependent on transmission delays, with delays exceeding 450 ms significantly disrupting synchronization. These findings suggest that IBS may serve as a key indicator of communication quality in remote interactions, offering insights for improving remote communication systems and collaboration.
format Preprint
id arxiv_https___arxiv_org_abs_2504_05568
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Conditions for Inter-brain Synchronization in Remote Communication: Investigating the Role of Transmission Delay
Lai, Sinyu
Li, Wanhui
Amano, Kaoru
Rekimoto, Jun
Neurons and Cognition
Human-Computer Interaction
Inter-brain synchronization (IBS), the alignment of neural activities between individuals, is a fundamental mechanism underlying effective social interactions and communication. Prior research has demonstrated that IBS can occur during collaborative tasks and is deeply connected to communication effectiveness. Building on these findings, recent investigations reveal that IBS happens during remote interactions, implying that brain activities between individuals can synchronize despite latency and physical separation. However, the conditions under which this synchronization occurs or is disrupted in remote settings, especially the effect of latency, are not fully understood. This study investigates how varying transmission latency affects IBS, in order to identify thresholds where synchronization is disrupted. Using electroencephalography measurements quantified through Phase Locking Value -- a metric that captures synchronization between brainwave phases -- we first confirm synchronization under face-to-face conditions and then observe changes in IBS across remote communication scenarios. Our findings reveal that IBS can occur during remote collaboration, but is critically dependent on transmission delays, with delays exceeding 450 ms significantly disrupting synchronization. These findings suggest that IBS may serve as a key indicator of communication quality in remote interactions, offering insights for improving remote communication systems and collaboration.
title Conditions for Inter-brain Synchronization in Remote Communication: Investigating the Role of Transmission Delay
topic Neurons and Cognition
Human-Computer Interaction
url https://arxiv.org/abs/2504.05568