: The emergence of collective behaviors in networks of dynamical units in pairwise interaction has been explained as the effect of diffusive coupling. How does the presence of higher-order interaction impact the onset of spontaneous or induced synchronous behavior? Inspired by actuation and measurement constraints typical of physical and engineered systems, we propose a diffusion mechanism over hypergraphs that explains the onset of synchronization through a clarifying analogy with signed graphs. Our findings are mathematically backed by general conditions for convergence to the synchronous state
Synchronization is an emergent property in networks of interacting dynamical elements. Here we revie...
Network representations of complex systems are limited to pairwise interactions, but real-world syst...
Modular organization and degree-degree correlations are ubiquitous in the connectivity structure of ...
: The emergence of collective behaviors in networks of dynamical units in pairwise interaction has b...
A modern introduction to synchronization phenomena, this text presents recent discoveries and the cu...
Complex networks are a successful framework to describe collective behaviour in many applications, b...
We study synchronization of non-diffusively coupled map networks with arbitrary network topologies, ...
Synchronization constitutes one of the most fundamental collective dynamics across networked systems...
Synchronization constitutes one of the most fundamental collective dynamics across networked systems...
Networks are ubiquitous in nature and engineering, with applications in areas such as modeling power...
Diffusively coupled networks, in which different components of a network adjust their behavior accor...
Synchronization processes in populations of locally interacting elements are in the focus of intense...
Non-reciprocal interactions play a crucial role in many social and biological complex systems. While...
DOI: 10.1103/PhysRevLett.118.138302 URL: https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.1...
This paper shows how different mechanisms may lead to clustering behavior in connected networks cons...
Synchronization is an emergent property in networks of interacting dynamical elements. Here we revie...
Network representations of complex systems are limited to pairwise interactions, but real-world syst...
Modular organization and degree-degree correlations are ubiquitous in the connectivity structure of ...
: The emergence of collective behaviors in networks of dynamical units in pairwise interaction has b...
A modern introduction to synchronization phenomena, this text presents recent discoveries and the cu...
Complex networks are a successful framework to describe collective behaviour in many applications, b...
We study synchronization of non-diffusively coupled map networks with arbitrary network topologies, ...
Synchronization constitutes one of the most fundamental collective dynamics across networked systems...
Synchronization constitutes one of the most fundamental collective dynamics across networked systems...
Networks are ubiquitous in nature and engineering, with applications in areas such as modeling power...
Diffusively coupled networks, in which different components of a network adjust their behavior accor...
Synchronization processes in populations of locally interacting elements are in the focus of intense...
Non-reciprocal interactions play a crucial role in many social and biological complex systems. While...
DOI: 10.1103/PhysRevLett.118.138302 URL: https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.1...
This paper shows how different mechanisms may lead to clustering behavior in connected networks cons...
Synchronization is an emergent property in networks of interacting dynamical elements. Here we revie...
Network representations of complex systems are limited to pairwise interactions, but real-world syst...
Modular organization and degree-degree correlations are ubiquitous in the connectivity structure of ...