Texto completo: acesso restrito. p. 1-9This work uses a complex network approach to analyze temporal sequences of electrophysiological signals of brain activity from freely behaving rats. A network node represents a neuron and a network link is included between a pair of nodes whenever their firing rates are correlated. The framework of time varying graph (TVG) is used to deal with a very large number (>30 000) of time dependent networks, which are set up by taking into account correlations between neuron firing rates in a moving time lag window of suitable width. Statistical distributions for the following network measures are obtained: size of the largest connected cluster, number of edges, average node degree, and average minimal path. W...
Brain systems span a wide range of spatial and temporal scales, from individual neurons firing every...
Network neuroscience has become an established paradigm to tackle questions related to the functiona...
Most neuronal networks, even in the absence of external stimuli, produce spontaneous bursts of spike...
Texto completo: acesso restrito. p. 1-9This work uses a complex network approach to analyze temporal...
This work uses a complex network approach to analyze temporal sequences of electrophysiolo...
The brain recruits neuronal populations in a temporally coordinated manner in task and at rest. Howe...
Ongoing brain activity results from the mutual interaction of hundred billions non-linear units and ...
The human brain is a hierarchical complex network − always active and evolvingdynamically. Its...
<p><i>(A)</i> Temporal Networks of the Human Brain. We parcellate the brain into anatomical regions ...
This study combines modeling of neuronal activity and networks derived from neuroimaging data in ord...
Graph theory is a very useful tool in the study of functional and anatomical network in the brain. I...
This dissertation deals with modeling and analysis of multi-neuronal spike train data. Brain tissue ...
Recent advances in brain imaging techniques, measurement approaches, and storage capacities have pro...
Recent advances in brain imaging techniques, measurement approaches, and storage capacities have pro...
Synchronized neural activity, in which the firing of neurons is coordinated in time, is an observed ...
Brain systems span a wide range of spatial and temporal scales, from individual neurons firing every...
Network neuroscience has become an established paradigm to tackle questions related to the functiona...
Most neuronal networks, even in the absence of external stimuli, produce spontaneous bursts of spike...
Texto completo: acesso restrito. p. 1-9This work uses a complex network approach to analyze temporal...
This work uses a complex network approach to analyze temporal sequences of electrophysiolo...
The brain recruits neuronal populations in a temporally coordinated manner in task and at rest. Howe...
Ongoing brain activity results from the mutual interaction of hundred billions non-linear units and ...
The human brain is a hierarchical complex network − always active and evolvingdynamically. Its...
<p><i>(A)</i> Temporal Networks of the Human Brain. We parcellate the brain into anatomical regions ...
This study combines modeling of neuronal activity and networks derived from neuroimaging data in ord...
Graph theory is a very useful tool in the study of functional and anatomical network in the brain. I...
This dissertation deals with modeling and analysis of multi-neuronal spike train data. Brain tissue ...
Recent advances in brain imaging techniques, measurement approaches, and storage capacities have pro...
Recent advances in brain imaging techniques, measurement approaches, and storage capacities have pro...
Synchronized neural activity, in which the firing of neurons is coordinated in time, is an observed ...
Brain systems span a wide range of spatial and temporal scales, from individual neurons firing every...
Network neuroscience has become an established paradigm to tackle questions related to the functiona...
Most neuronal networks, even in the absence of external stimuli, produce spontaneous bursts of spike...