Synchronizing phase-frustrated Kuramoto oscillators, a challenge that has found applications from neuronal networks to the power grid, is an eluding problem, as even small phase lags cause the oscillators to avoid synchronization. Here we show, constructively, how to strategically select the optimal frequency set, capturing the natural frequencies of all oscillators, for a given network and phase lags, that will ensure perfect synchronization. We find that high levels of synchronization are sustained in the vicinity of the optimal set, allowing for some level of deviation in the frequencies without significant degradation of synchronization. Demonstrating our results on first- and second-order phase-frustrated Kuramoto dynamics, we implemen...
In this work, we study the synchronization of coupled phase oscillators on the underlying topology o...
Motivated by recent interest for multi-agent systems and smart power grid architectures, we discuss ...
We study a Kuramoto model in which the oscillators are associated with the nodes of a complex networ...
The emergence of synchronization in a network of coupled oscillators is a fascinating subject of mul...
We present an analytical scheme to achieve optimal synchronization in multiplex networks of frustrat...
Synchronization is crucial for the correct functionality of many natural and man-made complex system...
We investigate frequency synchronization and phase agreement in networks of non-identical Kuramoto o...
A recently proposed dimensional reduction approach for studying synchronization in the Kuramoto mode...
We compare two methods for controlling synchronisation in the Kuramoto model on an undirected networ...
Synchronization is crucial for the correct functionality of many natural and man-made complex system...
Abstract—Synchronization underlies biological and man-made phenomena including memory and perception...
We present an analysis of conditions under which the dynamics of a frustrated Kuramoto—or Kuramoto-S...
In this Letter we discuss a method for generating synchrony-optimized coupling architectures of Kura...
Synchronization is crucial for the correct functionality of many natural and man-made complex system...
We compare two methods for controlling synchronisation in the Kuramoto model on an undirected networ...
In this work, we study the synchronization of coupled phase oscillators on the underlying topology o...
Motivated by recent interest for multi-agent systems and smart power grid architectures, we discuss ...
We study a Kuramoto model in which the oscillators are associated with the nodes of a complex networ...
The emergence of synchronization in a network of coupled oscillators is a fascinating subject of mul...
We present an analytical scheme to achieve optimal synchronization in multiplex networks of frustrat...
Synchronization is crucial for the correct functionality of many natural and man-made complex system...
We investigate frequency synchronization and phase agreement in networks of non-identical Kuramoto o...
A recently proposed dimensional reduction approach for studying synchronization in the Kuramoto mode...
We compare two methods for controlling synchronisation in the Kuramoto model on an undirected networ...
Synchronization is crucial for the correct functionality of many natural and man-made complex system...
Abstract—Synchronization underlies biological and man-made phenomena including memory and perception...
We present an analysis of conditions under which the dynamics of a frustrated Kuramoto—or Kuramoto-S...
In this Letter we discuss a method for generating synchrony-optimized coupling architectures of Kura...
Synchronization is crucial for the correct functionality of many natural and man-made complex system...
We compare two methods for controlling synchronisation in the Kuramoto model on an undirected networ...
In this work, we study the synchronization of coupled phase oscillators on the underlying topology o...
Motivated by recent interest for multi-agent systems and smart power grid architectures, we discuss ...
We study a Kuramoto model in which the oscillators are associated with the nodes of a complex networ...