[EN]The generation of spikes by neurons is energetically a costly process and the evaluation of the metabolic energy required to maintain the signaling activity of neurons a challenge of practical interest. Neuron models are frequently used to represent the dynamics of real neurons but hardly ever to evaluate the electrochemical energy required to maintain that dynamics. This paper discusses the interpretation of a Hodgkin-Huxley circuit as an energy model for real biological neurons and uses it to evaluate the consumption of metabolic energy in the transmission of information between neurons coupled by electrical synapses, i.e., gap junctions. We show that for a single postsynaptic neuron maximum energy efficiency, measured in bits of mutu...
This paper evaluates the change in metabolic energy required to maintain the signalling activity of ...
We investigate the energy efficiency of signaling mechanisms that transfer information by means of d...
Neuronal computation is energetically expensive. Consequently, the brain's limited energy supply imp...
The brain’s energy use on signalling has been well-described, but only about half the brain’s energy...
Selective pressure may drive neural systems to process as much information as possible with the lowe...
SummaryThe architecture of computational devices is shaped by their energy consumption. Energetic co...
The architecture of computational devices is shaped by their energy consumption. Energetic constrain...
Neuronal computation is energetically expensive. Consequently, the brain’s limited energy supply imp...
The initiation and propagation of action potentials (APs) places high demands on the energetic resou...
SummaryThis paper evaluates the change in metabolic energy required to maintain the signalling activ...
Fundamentally, action potentials in the squid axon are consequence of the entrance of sodium ions du...
The human brain consumes 106 times less energy than the currently fastest super computer [1], while ...
It has long been known that neurons in the brain are not physiologically homogeneous. In response to...
Visual information is sent from eye to brain by ∼15 types of ganglion cell. Because the retina is co...
As for electronic computation, neural information processing is energetically expensive. This is bec...
This paper evaluates the change in metabolic energy required to maintain the signalling activity of ...
We investigate the energy efficiency of signaling mechanisms that transfer information by means of d...
Neuronal computation is energetically expensive. Consequently, the brain's limited energy supply imp...
The brain’s energy use on signalling has been well-described, but only about half the brain’s energy...
Selective pressure may drive neural systems to process as much information as possible with the lowe...
SummaryThe architecture of computational devices is shaped by their energy consumption. Energetic co...
The architecture of computational devices is shaped by their energy consumption. Energetic constrain...
Neuronal computation is energetically expensive. Consequently, the brain’s limited energy supply imp...
The initiation and propagation of action potentials (APs) places high demands on the energetic resou...
SummaryThis paper evaluates the change in metabolic energy required to maintain the signalling activ...
Fundamentally, action potentials in the squid axon are consequence of the entrance of sodium ions du...
The human brain consumes 106 times less energy than the currently fastest super computer [1], while ...
It has long been known that neurons in the brain are not physiologically homogeneous. In response to...
Visual information is sent from eye to brain by ∼15 types of ganglion cell. Because the retina is co...
As for electronic computation, neural information processing is energetically expensive. This is bec...
This paper evaluates the change in metabolic energy required to maintain the signalling activity of ...
We investigate the energy efficiency of signaling mechanisms that transfer information by means of d...
Neuronal computation is energetically expensive. Consequently, the brain's limited energy supply imp...