How does the brain process and memorize information? We all know that the neuron (also known as nerve cell) is the processing unit in the brain. But how do neurons work together in networks? The connectivity structure of neural networks plays an important role in information processing. Therefore, it is worthwhile to investigate modeling of neural networks. Experiments extract different kinds of datasets (ranging from pair-wise connectivity to membrane potential of individual neurons) and provide an understanding of neuronal activity. However, due to technical limitations of experiments, and complexity and variety of neural architectures, the experimental datasets do not yield a model of neural networks on their own. Roughly speaking, the e...
Cell assemblies are co-operating groups of neurons believed to exist in the brain. Their existence w...
For the last twenty years, several assumptions have been expressed in the fields of information proc...
During recent decades, our understanding of the brain has advanced dramatically at both the cellular...
The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs and e...
The dynamic formation of groups of neurons—neuronal assemblies—is believed to mediate cognitive phen...
In the brain, patterns of neural activity represent sensory information and store it in non-random s...
Neurons are often considered as the basic functional units of the brain. Our brain contains about 10...
Our brains contain billions of neurons, which are continually producing electrical signals to relay ...
Recent progress in recording techniques now allows researchers to record from hundreds and even thou...
A widely discussed hypothesis in neuroscience is that transiently active ensembles of neurons, known...
Within the brain, the interplay between connectivity patterns of neurons and their spatiotemporal dy...
Neuronal networksand the brain in particularare out of equilibrium systems in which neurons are th...
How do billions of neurons cooperate to process information and mediate cognitive function such as l...
Neural systems show a wide variety of complex dynamics on different time scales. Specifically, on th...
Our brain has the capacity to analyze a visual scene in a split second, to learn how to play an inst...
Cell assemblies are co-operating groups of neurons believed to exist in the brain. Their existence w...
For the last twenty years, several assumptions have been expressed in the fields of information proc...
During recent decades, our understanding of the brain has advanced dramatically at both the cellular...
The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs and e...
The dynamic formation of groups of neurons—neuronal assemblies—is believed to mediate cognitive phen...
In the brain, patterns of neural activity represent sensory information and store it in non-random s...
Neurons are often considered as the basic functional units of the brain. Our brain contains about 10...
Our brains contain billions of neurons, which are continually producing electrical signals to relay ...
Recent progress in recording techniques now allows researchers to record from hundreds and even thou...
A widely discussed hypothesis in neuroscience is that transiently active ensembles of neurons, known...
Within the brain, the interplay between connectivity patterns of neurons and their spatiotemporal dy...
Neuronal networksand the brain in particularare out of equilibrium systems in which neurons are th...
How do billions of neurons cooperate to process information and mediate cognitive function such as l...
Neural systems show a wide variety of complex dynamics on different time scales. Specifically, on th...
Our brain has the capacity to analyze a visual scene in a split second, to learn how to play an inst...
Cell assemblies are co-operating groups of neurons believed to exist in the brain. Their existence w...
For the last twenty years, several assumptions have been expressed in the fields of information proc...
During recent decades, our understanding of the brain has advanced dramatically at both the cellular...