Higher-order interactions shape collective human behaviour

Federico Battiston; Valerio Capraro; Fariba Karimi; Sune Lehmann; Andrea Bamberg Migliano; Onkar Sadekar; Angel Sánchez; Matjaž Perc

doi:10.1038/s41562-025-02373-5

Higher-order interactions shape collective human behaviour

Federico Battiston^*
, Valerio Capraro
, Fariba Karimi
, Sune Lehmann
, Andrea Bamberg Migliano
, Onkar Sadekar
, Angel Sánchez
, Matjaž Perc

^*Corresponding author for this work

Institute of Human-Centred Computing (7060)

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

Abstract

Traditional social network models focus on pairwise interactions, overlooking the complexity of group-level dynamics that shape collective human behaviour. Here we outline how the framework of higher-order social networks—using mathematical representations beyond simple graphs—can more accurately represent interactions involving multiple individuals. Drawing from empirical data including scientific collaborations and contact networks, we demonstrate how higher-order structures reveal mechanisms of group formation, social contagion, cooperation and moral behaviour that are invisible in dyadic models. By moving beyond dyads, this approach offers a transformative lens for understanding the relational architecture of human societies, opening new directions for behavioural experiments, cultural dynamics, team science and group behaviour as well as new cross-disciplinary research.

Original language	English
Pages (from-to)	2441-2457
Number of pages	17
Journal	Nature Human Behaviour
Volume	9
Issue number	12
DOIs	https://doi.org/10.1038/s41562-025-02373-5
Publication status	Published - 17 Dec 2025

ASJC Scopus subject areas

Social Psychology
Experimental and Cognitive Psychology
Behavioral Neuroscience

Fields of Expertise

Information, Communication & Computing

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10.1038/s41562-025-02373-5

Cite this

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title = "Higher-order interactions shape collective human behaviour",

abstract = "Traditional social network models focus on pairwise interactions, overlooking the complexity of group-level dynamics that shape collective human behaviour. Here we outline how the framework of higher-order social networks—using mathematical representations beyond simple graphs—can more accurately represent interactions involving multiple individuals. Drawing from empirical data including scientific collaborations and contact networks, we demonstrate how higher-order structures reveal mechanisms of group formation, social contagion, cooperation and moral behaviour that are invisible in dyadic models. By moving beyond dyads, this approach offers a transformative lens for understanding the relational architecture of human societies, opening new directions for behavioural experiments, cultural dynamics, team science and group behaviour as well as new cross-disciplinary research.",

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AU - Battiston, Federico

AU - Capraro, Valerio

AU - Karimi, Fariba

AU - Lehmann, Sune

AU - Migliano, Andrea Bamberg

AU - Sadekar, Onkar

AU - Sánchez, Angel

AU - Perc, Matjaž

PY - 2025/12/17

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AB - Traditional social network models focus on pairwise interactions, overlooking the complexity of group-level dynamics that shape collective human behaviour. Here we outline how the framework of higher-order social networks—using mathematical representations beyond simple graphs—can more accurately represent interactions involving multiple individuals. Drawing from empirical data including scientific collaborations and contact networks, we demonstrate how higher-order structures reveal mechanisms of group formation, social contagion, cooperation and moral behaviour that are invisible in dyadic models. By moving beyond dyads, this approach offers a transformative lens for understanding the relational architecture of human societies, opening new directions for behavioural experiments, cultural dynamics, team science and group behaviour as well as new cross-disciplinary research.

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JO - Nature Human Behaviour

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ER -

Higher-order interactions shape collective human behaviour

Abstract

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