English

Analyzing states beyond full synchronization on hypergraphs requires methods beyond projected networks

Adaptation and Self-Organizing Systems 2021-07-30 v1 Disordered Systems and Neural Networks Chaotic Dynamics

Abstract

A common approach for analyzing hypergraphs is to consider the projected adjacency or Laplacian matrices for each order of interactions (e.g., dyadic, triadic, etc.). However, this method can lose information about the hypergraph structure and is not universally applicable for studying dynamical processes on hypergraphs, which we demonstrate through the framework of cluster synchronization. Specifically, we show that the projected network does not always correspond to a unique hypergraph structure. This means the projection does not always properly predict the true dynamics unfolding on the hypergraph. Additionally, we show that the symmetry group consisting of permutations that preserve the hypergraph structure can be distinct from the symmetry group of its projected matrix. Thus, considering the full hypergraph is required for analyzing the most general types of dynamics on hypergraphs. We show that a formulation based on node clusters and the corresponding edge clusters induced by the node partitioning, enables the analysis of admissible patterns of cluster synchronization and their effective dynamics. Additionally, we show that the coupling matrix projections corresponding to each edge cluster synchronization pattern, and not just to each order of interactions, are necessary for understanding the structure of the Jacobian matrix and performing the linear stability calculations efficiently.

Keywords

Cite

@article{arxiv.2107.13712,
  title  = {Analyzing states beyond full synchronization on hypergraphs requires methods beyond projected networks},
  author = {Anastasiya Salova and Raissa M. D'Souza},
  journal= {arXiv preprint arXiv:2107.13712},
  year   = {2021}
}

Comments

17 pages, 11 figures

R2 v1 2026-06-24T04:37:28.806Z