Many studies use population analysis approaches, such as dimensionality reduction, to characterize the activity of large groups of neurons. To date, these methods have treated each neuron equally, without taking into account whether neurons are excitatory or inhibitory. We studied population activity structure as a function of neuron type by applying factor analysis to spontaneous activity from spiking networks with balanced excitation and inhibition. Throughout the study, we characterized population activity structure by measuring its dimensionality and the percentage of overall activity variance that is shared among neurons. First, by sampling only excitatory or only inhibitory neurons, we found that the activity structures of these two p...
UnrestrictedTo understand how information is processed in neocortical circuits, it is crucial to map...
<p><b>A.</b> Architecture of the large network of spiking neurons. <b>B.</b> Architecture of the net...
Our brains contain billions of neurons, which are continually producing electrical signals to relay ...
Many studies use population analysis approaches, such as dimensionality reduction, to characterize t...
Background: The activity in neuronal networks with excitatory and inhibitory cells depend strongly o...
Recent studies have applied dimensionality reduction methods to understand how the multi-dimensional...
Various brain regions have distinct and highly conserved ratios of excitatory and inhibitory neurons...
The brain is a network system in which excitatory and inhibitory neurons keep activity balanced in t...
Balanced networks of inhibitory and excitatory neurons with homogeneously random recurrent connectiv...
Neural circuits in the brain have distinct and highly conserved ratios of excitatory and inhibitory ...
Distinguishing between different neural cell classes can provide value insight into circuit mechanis...
Distinguishing between different neural cell classes can provide value insight into circuit mechanis...
The brain consists of complex interacting networks of excitatory and inhibitory neurons. The spatio-...
Repetitive activation of subpopulations of neurons leads to the formation of neuronal assemblies, wh...
The balance between excitation and inhibition in a neuronal network is considered to be an important...
UnrestrictedTo understand how information is processed in neocortical circuits, it is crucial to map...
<p><b>A.</b> Architecture of the large network of spiking neurons. <b>B.</b> Architecture of the net...
Our brains contain billions of neurons, which are continually producing electrical signals to relay ...
Many studies use population analysis approaches, such as dimensionality reduction, to characterize t...
Background: The activity in neuronal networks with excitatory and inhibitory cells depend strongly o...
Recent studies have applied dimensionality reduction methods to understand how the multi-dimensional...
Various brain regions have distinct and highly conserved ratios of excitatory and inhibitory neurons...
The brain is a network system in which excitatory and inhibitory neurons keep activity balanced in t...
Balanced networks of inhibitory and excitatory neurons with homogeneously random recurrent connectiv...
Neural circuits in the brain have distinct and highly conserved ratios of excitatory and inhibitory ...
Distinguishing between different neural cell classes can provide value insight into circuit mechanis...
Distinguishing between different neural cell classes can provide value insight into circuit mechanis...
The brain consists of complex interacting networks of excitatory and inhibitory neurons. The spatio-...
Repetitive activation of subpopulations of neurons leads to the formation of neuronal assemblies, wh...
The balance between excitation and inhibition in a neuronal network is considered to be an important...
UnrestrictedTo understand how information is processed in neocortical circuits, it is crucial to map...
<p><b>A.</b> Architecture of the large network of spiking neurons. <b>B.</b> Architecture of the net...
Our brains contain billions of neurons, which are continually producing electrical signals to relay ...