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電子科学研究所 附属社会創造数学センター主催 
学術変革領域研究(A)「マルチモーダルECM」共催
154 HMMCセミナー

2024年82日 開催

 Time:           2024年8月2日(金) 16時30分 ~ 2024年8月2日(水) 18時00分

Place:     北海道大学電子科学研究所 中央キャンパス総合研究棟2号館5階講義室                および ZOOMを使用した ハイブリッド開催

Speaker:    Riccardo Muolo (東京工業大学工学院・博士研究員)

Title:  Introduction to the theory of higher-order interactions and topological signals:                         effects on synchronization dynamics and Turing pattern formation

Abstract:  Networks are powerful tools in the modeling of complex systems, but they may not capture the right interactions when multiple units are involved simultaneously. Such many-body interactions are encoded by higher-order structures which can be thought as extensions of networks [1]. The most general form is a hypergraph, in which interactions of any order can coexist without any constraint. Over the last years, higher-order structures have been the focus of great excitement, since this novel framework has enormous potential for applications. Moreover, particular interest has been directed towards the analysis of topological signals, i.e., state variables defined not only on the nodes, but also on links, triangles and higher-order structures, which can be coupled together when the higher-order structure is a simplicial complex [2]. In this seminar I will introduce higher-order interactions and their effects on nonlinear dynamics. It will be divided in two parts: one about higher-order interactions and dynamics on hypergraphs, while the other will be focused on the theory of topological signals. In the first part I will introduce the basics of dynamics on networks and its extension to the case of higher-order interactions, i.e., dynamics on hypergraphs. As an example of the effects that such framework can have on nonlinear dynamics, I will discuss the case of phase reduction [3] and show how the presence of three-body interactions can greatly enrich the dynamics of the simplest possible higher-order Kuramoto-Sakaguchi model [4]. In the second part, after having introduced topological signals on simplicial complexes, I will discuss reaction-diffusion dynamics in such framework and show some recent results regarding Turing theory of pattern formation [5,6] and synchronization dynamics [7,8].

References: 
[1] Battiston F. et al., Networks beyond pairwise interactions: Structure and dynamics. Phys. Rep., 84: 1-92, 2020.   
[2] Bianconi G., Higher-Order Networks: An introduction to simplicial complexes. Cambridge University Press, 2021.
[3] Nakao H., Phase reduction approach to synchronisation of nonlinear oscillators. Cont. Phys., 57(2): 188-214, 2016.
[4] León I., Muolo R., Hata S. and Nakao H., Higher-order interactions induce anomalous transitions to synchrony. Chaos 34, 013105, 2024.
[5] Giambagli, L., Calmon, L., Muolo, R., Carletti, T. and Bianconi, G., Diffusion-driven instability of topological signals coupled by the Dirac operator. Phys. Rev. E, 106:064314, 2022.
[6] Muolo R., Carletti T. and Bianconi G., The three way Dirac operator and dynamical Turing and Dirac induced patterns on nodes and links. Chaos Sol. Frac., 178(114312), 2024.
[7] Carletti T., Giambagli L. and Bianconi G., Global topological synchronization on simplicial and cell complexes. Phys. Rev. Lett., 103(18):187401 2023.
[8] Wang R., Muolo R., Carletti T. and Bianconi, G., Global topological synchronization of weighted simplicial complexes. To appear in Phys. Rev. E (2024).

 

 

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