We show in particular that asynchronous drifting states may be stabilized in purely excitatory networks whenever a refractory period is present.

Sep 21, 2016 · Title:Drifting states and synchronization induced chaos in autonomous networks of excitable neurons. Authors:Rodrigo Echeveste, Claudius Gros.

We show in particular that asynchronous drifting states may be stabilized in purely excitatory networks whenever a refractory period is present. Other states ...

Sep 21, 2016 · Abstract. The study of balanced networks of excitatory and inhibitory neurons has led to several open questions.

Sep 21, 2016 · We show in particular that asynchronous drifting states may be stabilized in purely excitatory networks whenever a refractory period is present.

Drifting States and Synchronization Induced Chaos in Autonomous Networks of Excitable Neurons. https://doi.org/10.3389/fncom.2016.00098 · Full text. Journal ...

Drifting states and synchronization induced chaos in autonomous networks of excitable neurons. R. Echeveste, S. Eckmann, C. Gros. Frontiers in computational ...

The study of balanced networks of excitatory and inhibitory neurons has led to several open questions. On the one hand it is yet unclear whether the...

Drifting States and Synchronization Induced Chaos in Autonomous Networks of Excitable Neurons. R Echeveste, C Gros. Frontiers in Computational Neuroscience 10 ...

Drifting States and Synchronization Induced Chaos in Autonomous Networks of Excitable Neurons. Authors: R. Echeveste, C. Gros Journal-ref.: Frontiers in ...