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Perspectives on social interaction science: From a multilevel multi-timescale computational architecture for synchrony-induced and homophily-induced attunement to designing bonding bots
Hendrikse,Sophie C.F. Treur,Jan
Hendrikse,Sophie C.F.
Treur,Jan
Abstract
In this paper a generic computational architecture for social interaction adaptivity and attunement is presented that was developed based on unification of a number of specific case studies addressed earlier. This architecture describes a generic multilevel multi-timescale adaptive dynamical system and is formalised and represented as a multi-order self-modeling network. It is shown how this architecture covers different earlier case studies addressing social interaction adaptivity and attunement subsuming synchrony- or homophily-induced adaptivity. Moreover, it is shown how based on it a new application to the design of bonding bots is realised that supports interpersonal emotion regulation via adaptive human-bot interaction and attunement.
Description
Date
2025-08
Journal Title
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Publisher
Springer Cham
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Keywords
Social interaction, homophily, synchrony, adaptivity, similarity, connectedness, computational architecture, multilevel, multi-timescale, bonding bot
Citation
Hendrikse, S C F & Treur, J 2025, Perspectives on social interaction science : From a multilevel multi-timescale computational architecture for synchrony-induced and homophily-induced attunement to designing bonding bots. in R Silhavy & P Silhavy (eds), Artificial intelligence and system engineering : Proceedings of 8th computational methods in systems and software 2024. 1 edn, vol. 2, Lecture notes in networks and systems , vol. 1490, Springer Cham, 8th international conference on computational methods in systems and software , 12/10/24. https://doi.org/10.1007/978-3-031-96759-7_39