A dynamic balance between strong excitatory and inhibitory neuronal inputs is hypothesized to play a pivotal role in information processing in the brain. While there is evidence of the existence of a balanced operating regime in several cortical areas and idealized neuronal network models, it is important for the theory of balanced networks to be reconciled with more physiological neuronal modeling assumptions. In this work, we examine the impact of spike-frequency adaptation, observed widely across neurons in the brain, on balanced dynamics. We incorporate adaptation into binary and integrate-and-fire neuronal network models, analyzing the theoretical effect of adaptation in the large network limit and performing an extensive numerical inv...
Spike-frequency adaptation is a prominent feature of neural dynamics. Among other mechanisms, variou...
Spike-frequency adaptation is a prominent feature of neural dynamics. Among other mechanisms, variou...
The dynamics of local cortical networks are irregular, but correlated. Dynamic excitatory-inhibitory...
A dynamic balance between strong excitatory and inhibitory neuronal inputs is hypothesized to play a...
The balance of excitation and inhibition in neuronal circuits is essential for stable dynamics. This...
Excitation/Inhibition balance is essential for stable neuronal dynamics. It is considered to be stro...
International audienceNeural activity in awake behaving animals exhibits a vast range of timescales ...
Traditional analysis of cortical network dynamics has most commonly treated simple random graph stru...
The capability of neurons to discriminate between intensity of external stimulus is measured by its ...
Neural activity in awake behaving animals exhibits a vast range of timescales that can be several fo...
For solving tasks such as recognizing a song, answering a question, or inverting a sequence of symbo...
Abstract The ability of neurons to adapt their responses to greatly varying sensory signal statistic...
The dynamics of local cortical networks are irregular, but correlated. Dynamic excitatory-inhibitory...
<div><p>The ability of spiking neurons to synchronize their activity in a network depends on the res...
Balanced excitation and inhibition is widely observed in cortex. How does this balance shape neural ...
Spike-frequency adaptation is a prominent feature of neural dynamics. Among other mechanisms, variou...
Spike-frequency adaptation is a prominent feature of neural dynamics. Among other mechanisms, variou...
The dynamics of local cortical networks are irregular, but correlated. Dynamic excitatory-inhibitory...
A dynamic balance between strong excitatory and inhibitory neuronal inputs is hypothesized to play a...
The balance of excitation and inhibition in neuronal circuits is essential for stable dynamics. This...
Excitation/Inhibition balance is essential for stable neuronal dynamics. It is considered to be stro...
International audienceNeural activity in awake behaving animals exhibits a vast range of timescales ...
Traditional analysis of cortical network dynamics has most commonly treated simple random graph stru...
The capability of neurons to discriminate between intensity of external stimulus is measured by its ...
Neural activity in awake behaving animals exhibits a vast range of timescales that can be several fo...
For solving tasks such as recognizing a song, answering a question, or inverting a sequence of symbo...
Abstract The ability of neurons to adapt their responses to greatly varying sensory signal statistic...
The dynamics of local cortical networks are irregular, but correlated. Dynamic excitatory-inhibitory...
<div><p>The ability of spiking neurons to synchronize their activity in a network depends on the res...
Balanced excitation and inhibition is widely observed in cortex. How does this balance shape neural ...
Spike-frequency adaptation is a prominent feature of neural dynamics. Among other mechanisms, variou...
Spike-frequency adaptation is a prominent feature of neural dynamics. Among other mechanisms, variou...
The dynamics of local cortical networks are irregular, but correlated. Dynamic excitatory-inhibitory...