Oscillators in networks may display a variety of activity patterns. This paper presents a geometric singular perturbation analysis of clustering, or alternate firing of synchronized subgroups, among synaptically coupled oscillators. We consider oscillators in two types of networks: mutually coupled, with all-to-all inhibitory connections, and globally inhibitory, with one excitatory and one inhibitory population of oscillators, each of arbitrary size. Our analysis yields existence and stability conditions for clustered states, along with formulas for the periods of such firing patterns. By using two different approaches, we derive complementary conditions, the first set stated in terms of time lengths determined by intrinsic and synaptic pr...
The collective dynamics of excitatory pulse coupled neurons with spike timing dependent plasticity (...
A dynamical theory of spike train transitions in networks of pulse-coupled integrateand- fire (IF) n...
International audienceWe consider a network of globally coupled phase oscillators. The interaction b...
Clustering behavior is studied in a model of integrate-and-fire oscillators with excitatory pulse co...
The presence of synchronized clusters in neuron networks is a hallmark of information transmission a...
In this thesis we study aspects of periodic activity in model mutually-coupled oscillators inspired ...
We study the role of network architecture in the formation of synchronous clusters in synaptically c...
Synchronization is studied in a spatially-distributed network of weekly-coupled, excitatory neurons ...
A broad class of natural and man-made systems exhibits rich patterns of cluster synchronization in h...
A prominent feature of the dynamics of large neuronal networks are the synchrony-driven collective o...
For coupled oscillator networks with Laplacian coupling the master stability function (MSF) has prov...
unrestricted use, distribution, and reproduction in any medium, provided the original work is proper...
In this dissertation we analyze networks of coupled phase oscillators. We consider systems where lon...
A complete classification of dynamics of a population of a inhibitory pulse-coupled oscillators is p...
Under which conditions can a network of pulse-coupled oscillators sustain stable collective activity...
The collective dynamics of excitatory pulse coupled neurons with spike timing dependent plasticity (...
A dynamical theory of spike train transitions in networks of pulse-coupled integrateand- fire (IF) n...
International audienceWe consider a network of globally coupled phase oscillators. The interaction b...
Clustering behavior is studied in a model of integrate-and-fire oscillators with excitatory pulse co...
The presence of synchronized clusters in neuron networks is a hallmark of information transmission a...
In this thesis we study aspects of periodic activity in model mutually-coupled oscillators inspired ...
We study the role of network architecture in the formation of synchronous clusters in synaptically c...
Synchronization is studied in a spatially-distributed network of weekly-coupled, excitatory neurons ...
A broad class of natural and man-made systems exhibits rich patterns of cluster synchronization in h...
A prominent feature of the dynamics of large neuronal networks are the synchrony-driven collective o...
For coupled oscillator networks with Laplacian coupling the master stability function (MSF) has prov...
unrestricted use, distribution, and reproduction in any medium, provided the original work is proper...
In this dissertation we analyze networks of coupled phase oscillators. We consider systems where lon...
A complete classification of dynamics of a population of a inhibitory pulse-coupled oscillators is p...
Under which conditions can a network of pulse-coupled oscillators sustain stable collective activity...
The collective dynamics of excitatory pulse coupled neurons with spike timing dependent plasticity (...
A dynamical theory of spike train transitions in networks of pulse-coupled integrateand- fire (IF) n...
International audienceWe consider a network of globally coupled phase oscillators. The interaction b...