The Effect of Transition Dynamics in Synchrony on Social Interaction Adaptivity: A Multi-adaptive Network Model

Sophie C.F. Hendrikse; Jan Treur; Tom F. Wilderjans; Suzanne Dikker; Sander L. Koole

doi:10.1007/978-3-031-99968-0_15

The Effect of Transition Dynamics in Synchrony on Social Interaction Adaptivity: A Multi-adaptive Network Model

Sophie C.F. Hendrikse
, Jan Treur^*
, Tom F. Wilderjans
, Suzanne Dikker
, Sander L. Koole

^*Corresponding author for this work

Research output: Chapter in Book / Report / Conference proceeding › Chapter › Academic › peer-review

Abstract

Interpersonal synchrony is associated with better interpersonal affiliation. No matter how well-affiliated people are, interruptions or transitions in synchrony rebound to occur. One might intuitively expect that transitions in synchrony negatively affect affiliation or liking. Empirical evidence, however, suggests that time periods with interruptions in synchrony may favor affiliation or liking even more than time periods without interruptions in synchrony. This chapter introduces a controlled adaptive network model to explain how persons’ affiliation might benefit from transitions in synchrony over and above mean levels of synchrony. The adaptive network model was evaluated in a series of simulation experiments for two persons with a setup in which a number of scenarios were encountered in different (time) episodes. Our controlled adaptive network model may serve as a foundation for more realistic virtual agents with regard to synchrony transitions and their role in affiliation.

Original language	English
Title of host publication	Studies in Systems, Decision and Control
Editors	Sophie C.F. Hendrikse, Jan Treur, Sander L. Koole
Publisher	Springer Nature Switzerland AG
Pages	465-493
Number of pages	29
ISBN (Electronic)	9783031999680
ISBN (Print)	9783031999673, 9783031999703
DOIs	https://doi.org/10.1007/978-3-031-99968-0_15
Publication status	Published - 2025

Publication series

Name	Studies in Systems, Decision and Control
Publisher	Springer
Volume	614
ISSN (Print)	2198-4182
ISSN (Electronic)	2198-4190

Bibliographical note

Online published: 2 January 2026.

Publisher Copyright:
© The Author(s), under exclusive license to Springer Nature Switzerland AG 2025.

Keywords

Affiliation
Controlled adaptive network model
Interpersonal synchrony
Liking
Synchrony transitions

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10.1007/978-3-031-99968-0_15

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Hendrikse, S. C. F., Treur, J., Wilderjans, T. F., Dikker, S., & Koole, S. L. (2025). The Effect of Transition Dynamics in Synchrony on Social Interaction Adaptivity: A Multi-adaptive Network Model. In S. C. F. Hendrikse, J. Treur, & S. L. Koole (Eds.), Studies in Systems, Decision and Control (pp. 465-493). (Studies in Systems, Decision and Control; Vol. 614). Springer Nature Switzerland AG. https://doi.org/10.1007/978-3-031-99968-0_15

Hendrikse, Sophie C.F. ; Treur, Jan ; Wilderjans, Tom F. et al. / The Effect of Transition Dynamics in Synchrony on Social Interaction Adaptivity : A Multi-adaptive Network Model. Studies in Systems, Decision and Control. editor / Sophie C.F. Hendrikse ; Jan Treur ; Sander L. Koole. Springer Nature Switzerland AG, 2025. pp. 465-493 (Studies in Systems, Decision and Control).

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abstract = "Interpersonal synchrony is associated with better interpersonal affiliation. No matter how well-affiliated people are, interruptions or transitions in synchrony rebound to occur. One might intuitively expect that transitions in synchrony negatively affect affiliation or liking. Empirical evidence, however, suggests that time periods with interruptions in synchrony may favor affiliation or liking even more than time periods without interruptions in synchrony. This chapter introduces a controlled adaptive network model to explain how persons{\textquoteright} affiliation might benefit from transitions in synchrony over and above mean levels of synchrony. The adaptive network model was evaluated in a series of simulation experiments for two persons with a setup in which a number of scenarios were encountered in different (time) episodes. Our controlled adaptive network model may serve as a foundation for more realistic virtual agents with regard to synchrony transitions and their role in affiliation.",

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Hendrikse, SCF, Treur, J, Wilderjans, TF, Dikker, S & Koole, SL 2025, The Effect of Transition Dynamics in Synchrony on Social Interaction Adaptivity: A Multi-adaptive Network Model. in SCF Hendrikse, J Treur & SL Koole (eds), Studies in Systems, Decision and Control. Studies in Systems, Decision and Control, vol. 614, Springer Nature Switzerland AG, pp. 465-493. https://doi.org/10.1007/978-3-031-99968-0_15

The Effect of Transition Dynamics in Synchrony on Social Interaction Adaptivity: A Multi-adaptive Network Model. / Hendrikse, Sophie C.F.; Treur, Jan; Wilderjans, Tom F. et al.
Studies in Systems, Decision and Control. ed. / Sophie C.F. Hendrikse; Jan Treur; Sander L. Koole. Springer Nature Switzerland AG, 2025. p. 465-493 (Studies in Systems, Decision and Control; Vol. 614).

Research output: Chapter in Book / Report / Conference proceeding › Chapter › Academic › peer-review

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AB - Interpersonal synchrony is associated with better interpersonal affiliation. No matter how well-affiliated people are, interruptions or transitions in synchrony rebound to occur. One might intuitively expect that transitions in synchrony negatively affect affiliation or liking. Empirical evidence, however, suggests that time periods with interruptions in synchrony may favor affiliation or liking even more than time periods without interruptions in synchrony. This chapter introduces a controlled adaptive network model to explain how persons’ affiliation might benefit from transitions in synchrony over and above mean levels of synchrony. The adaptive network model was evaluated in a series of simulation experiments for two persons with a setup in which a number of scenarios were encountered in different (time) episodes. Our controlled adaptive network model may serve as a foundation for more realistic virtual agents with regard to synchrony transitions and their role in affiliation.

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Hendrikse SCF, Treur J, Wilderjans TF, Dikker S, Koole SL. The Effect of Transition Dynamics in Synchrony on Social Interaction Adaptivity: A Multi-adaptive Network Model. In Hendrikse SCF, Treur J, Koole SL, editors, Studies in Systems, Decision and Control. Springer Nature Switzerland AG. 2025. p. 465-493. (Studies in Systems, Decision and Control). doi: 10.1007/978-3-031-99968-0_15

The Effect of Transition Dynamics in Synchrony on Social Interaction Adaptivity: A Multi-adaptive Network Model

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Keywords

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