Swarmalators are entities with the simultaneous presence of swarming and synchronization that reveal emergent collective behavior due to the fascinating bidirectional interplay between phase and spatial dynamics. Although different coupling topologies have already been considered, here we introduce time-varying competitive phase interaction among swarmalators where the underlying connectivity for attractive and repulsive coupling varies depending on the vision (sensing) radius. Apart from investigating some fundamental properties like conservation of center of position and collision avoidance, we also scrutinize the cases of extreme limits of vision radius. The concurrence of attractive-repulsive competitive phase coupling allows the explor...
We investigate synchronization in a population of mobile pulse-coupled agents with a view towards i...
Clustering is a phenomenon that may emerge in multi-agent systems through self-organization: groups ...
In contrast with laboratory insect swarms, wild insect swarms display significant coordinated behavi...
Swarmalators are oscillatory systems endowed with a spatial component, whose spatial and phase dynam...
Synchronization is a universal phenomenon, occurring in systems as disparate as Japanese tree frogs ...
We study a population of swarmalators (a type of mobile oscillator) which run on a ring and are subj...
Swarmalators are oscillators that can swarm as well as sync via a dynamic balance between their spat...
We study a population of swarmalators, mobile variants of phase oscillators, which run on a ring and...
Swarmalators exhibit spatial and temporal self-organization; agents’ motions depend on their phase i...
We study a model of non-identical swarmalators, generalizations of phase oscillators that both sync ...
Swarmalators have emerged as a new paradigm for dynamical collective behavior of multi-agent systems...
Recently, there has been growing interest in the synchronization of mobile pulse-coupled oscillators...
We investigate the role of delay in the collective dynamics of particles that swarm in space and pos...
We study the emergent behaviors of a population of swarming coupled oscillators, dubbed 'swarmalator...
Collective biological systems display power laws for macroscopic quantities and are fertile probing ...
We investigate synchronization in a population of mobile pulse-coupled agents with a view towards i...
Clustering is a phenomenon that may emerge in multi-agent systems through self-organization: groups ...
In contrast with laboratory insect swarms, wild insect swarms display significant coordinated behavi...
Swarmalators are oscillatory systems endowed with a spatial component, whose spatial and phase dynam...
Synchronization is a universal phenomenon, occurring in systems as disparate as Japanese tree frogs ...
We study a population of swarmalators (a type of mobile oscillator) which run on a ring and are subj...
Swarmalators are oscillators that can swarm as well as sync via a dynamic balance between their spat...
We study a population of swarmalators, mobile variants of phase oscillators, which run on a ring and...
Swarmalators exhibit spatial and temporal self-organization; agents’ motions depend on their phase i...
We study a model of non-identical swarmalators, generalizations of phase oscillators that both sync ...
Swarmalators have emerged as a new paradigm for dynamical collective behavior of multi-agent systems...
Recently, there has been growing interest in the synchronization of mobile pulse-coupled oscillators...
We investigate the role of delay in the collective dynamics of particles that swarm in space and pos...
We study the emergent behaviors of a population of swarming coupled oscillators, dubbed 'swarmalator...
Collective biological systems display power laws for macroscopic quantities and are fertile probing ...
We investigate synchronization in a population of mobile pulse-coupled agents with a view towards i...
Clustering is a phenomenon that may emerge in multi-agent systems through self-organization: groups ...
In contrast with laboratory insect swarms, wild insect swarms display significant coordinated behavi...