Optimizing higher-order network topology for synchronization of coupled phase oscillators

Tang, Ying; Shi, Dinghua; Lü, Linyuan

doi:10.48550/arxiv.2108.11200

Cited by 2 publications

(1 citation statement)

References 42 publications

(175 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…That is, for generic oscillator dynamics, higher-order interactions should promote synchronization if the hyperedges are more uniformly distributed than their pairwise counterpart. For the future, it would be interesting to generalize our results to systems whose interactions can be nonreciprocal [43][44][45][46].…”

mentioning

confidence: 97%

Higher-order interactions shape collective dynamics differently in hypergraphs and simplicial complexes

Zhang¹,

Lucas²,

Battiston³

2022

Preprint

View full text Add to dashboard Cite

Understanding how nonpairwise interactions alter dynamical processes in networks is of fundamental importance to the characterization and control of many coupled systems. Recent discoveries of hyperedge-enhanced synchronization under various settings raised speculations that such enhancements might be a general phenomenon. Here, we demonstrate that even for simple systems such as Kuramoto oscillators, the effects of higher-order interactions are highly representation-dependent. Specifically, we show numerically and analytically that hyperedges typically enhance synchronization in random hypergraphs, but have the opposite effect in simplicial complexes. As an explanation, we identify higher-order degree heterogeneity as the key structural determinant of synchronization stability in systems with a fixed coupling budget. Our findings highlight the importance of appropriate representations in describing higher-order interactions. In particular, the choice of simplicial complexes or hypergraphs has significant ramifications and should not be purely motivated by technical conveniences.

show abstract

mentioning

confidence: 97%

Higher-order interactions shape collective dynamics differently in hypergraphs and simplicial complexes

Zhang¹,

Lucas²,

Battiston³

2022

Preprint

View full text Add to dashboard Cite

show abstract

Synchronization analyze of k-uniform hyper-networks

Du,

Ma,

et al. 2024

Sci Rep

View full text Add to dashboard Cite

Hyper-networks tend to perform better in representing multivariate relationships among nodes. Yet, due to the complexity of the hyper-network structure, research in synchronization dynamics is rarely involved. In this paper, a Kuramoto model more suitable for k-uniform hyper-networks is proposed. And the generalized Laplacian matrix expression of the k-uniform hyper-network is present. We use the eigenvalue ratio of the generalized Laplacian matrix to quantify synchronization. And we studied the effects of some important structure parameters on the synchronization of three types of k-uniform hyper-networks. And obtained different relationships between synchronization and these parameters. The results show the synchronization of the k-uniform hyper-networks is related to both structure and parameters. And as the size of the nodes increases, the synchronization ability gradually increases for ER random hyper-network, while that gradually decreases for NW small-world hyper-network and BA scale-free hyper-network. As the uniformity increases, the synchronization ability of all three types of uniform hyper-networks increases. In addition, when the structure and node size are fixed, the synchronization ability increases with the increase of the hyper-clustering coefficient in BA scale-free hyper-network and ER random hyper-network, while it decreases with the increase of the hyper-clustering coefficient in NW small-world hyper-network.

show abstract

Optimizing higher-order network topology for synchronization of coupled phase oscillators

Cited by 2 publications

References 42 publications

Higher-order interactions shape collective dynamics differently in hypergraphs and simplicial complexes

Higher-order interactions shape collective dynamics differently in hypergraphs and simplicial complexes

Synchronization analyze of k-uniform hyper-networks

Contact Info

Product

Resources

About