Individual cortical synapses are known to exhibit a very complex short-time dynamic behaviour in response to simple "naturalistic" stimulation. We describe a computational study of the experimentally obtained excitatory post-synaptic potential trains of individual cortical synapses. By adopting a new nonlinear modelling scheme we construct robust and repeatable models of the underlying dynamics. These models suggest that cortical synapses exhibit a wide range of either periodic or chaotic dynamics. For stimulus at a fixed rate our models predict that the response of the individual synapse will vary from a fixed point to periodic and chaotic, depending on the frequency of stimulus. Dynamics for individual synapses vary widely, suggesting tha...
The way in which cortical microcircuit components -- most importantly neurons -- and their connectiv...
Complex coherent dynamics is present in a wide variety of neural systems. A typical example is the v...
From simulations relying on detailed physiological data, cortical layer IV recurrent network topolog...
The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs and e...
Contains fulltext : 87931.pdf (publisher's version ) (Open Access)Complex coherent...
In the brain, synchronization among cells of an assembly is a common phenomenon, and thought to be f...
Connectivity in local cortical networks is far from random: Reciprocal connections are over-represen...
Abstract—We describe results of investigating features of irregular fluctuations of the individual r...
In the search for the mechanisms of neuronal information coding, attention has recently shifted towa...
DoctorNonlinear dynamics have also received much attention in recent years for the purpose of invest...
Recent experimental studies show cortical circuit responses to external stimuli display varied dynam...
This thesis examines the bifurcations, i.e., the emergent behaviours, for the Waikato cortical model...
The field of neural network modelling has grown up on the premise that the massively parallel distri...
Short-term synaptic dynamics differ markedly across connections and strongly regulate how action pot...
Computational studies often proceed from the premise that cortical dynamics operate in a linearly st...
The way in which cortical microcircuit components -- most importantly neurons -- and their connectiv...
Complex coherent dynamics is present in a wide variety of neural systems. A typical example is the v...
From simulations relying on detailed physiological data, cortical layer IV recurrent network topolog...
The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs and e...
Contains fulltext : 87931.pdf (publisher's version ) (Open Access)Complex coherent...
In the brain, synchronization among cells of an assembly is a common phenomenon, and thought to be f...
Connectivity in local cortical networks is far from random: Reciprocal connections are over-represen...
Abstract—We describe results of investigating features of irregular fluctuations of the individual r...
In the search for the mechanisms of neuronal information coding, attention has recently shifted towa...
DoctorNonlinear dynamics have also received much attention in recent years for the purpose of invest...
Recent experimental studies show cortical circuit responses to external stimuli display varied dynam...
This thesis examines the bifurcations, i.e., the emergent behaviours, for the Waikato cortical model...
The field of neural network modelling has grown up on the premise that the massively parallel distri...
Short-term synaptic dynamics differ markedly across connections and strongly regulate how action pot...
Computational studies often proceed from the premise that cortical dynamics operate in a linearly st...
The way in which cortical microcircuit components -- most importantly neurons -- and their connectiv...
Complex coherent dynamics is present in a wide variety of neural systems. A typical example is the v...
From simulations relying on detailed physiological data, cortical layer IV recurrent network topolog...