We investigate the energy efficiency of signaling mechanisms that transfer information by means of discrete stochastic events, such as the opening or closing of an ion channel. Using a simple model for the generation of graded electrical signals by sodium and potassium channels, we find optimum numbers of channels that maximize energy efficiency. The optima depend on several factors: the relative magnitudes of the signaling cost (current flow through channels), the fixed cost of maintaining the system, the reliability of the input, additional sources of noise, and the relative costs of upstream and downstream mechanisms. We also analyze how the statistics of input signals influence energy efficiency. We find that energy-efficient signal ens...
One of the primary computational requirements of a cellular system is the ability to transfer inform...
The human brain consumes 106 times less energy than the currently fastest super computer [1], while ...
Does the nervous system "tune" itself to perform at peak efficiency? Optimal transmission of informa...
We investigate the energy efficiency of signaling mechanisms that transfer information by means of d...
We investigate the energy efficiency of signaling mechanisms that transfer information by means of d...
We investigate the energy efciency of signalingmechanisms that transfer information by means of disc...
Identifying the determinants of neuronal energy consumption and their relationship to information co...
[EN]The generation of spikes by neurons is energetically a costly process and the evaluation of the ...
Selective pressure may drive neural systems to process as much information as possible with the lowe...
Information is encoded in neural circuits using both graded and action potentials, converting betwee...
In systems biology, questions concerning the molecular and cellular makeup of an organism are of utm...
Information is encoded in neural circuits using both graded and action potentials, converting betwee...
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...
In systems biology, questions concerning the molecular and cellular makeup of an organism are of utm...
One of the primary computational requirements of a cellular system is the ability to transfer inform...
The human brain consumes 106 times less energy than the currently fastest super computer [1], while ...
Does the nervous system "tune" itself to perform at peak efficiency? Optimal transmission of informa...
We investigate the energy efficiency of signaling mechanisms that transfer information by means of d...
We investigate the energy efficiency of signaling mechanisms that transfer information by means of d...
We investigate the energy efciency of signalingmechanisms that transfer information by means of disc...
Identifying the determinants of neuronal energy consumption and their relationship to information co...
[EN]The generation of spikes by neurons is energetically a costly process and the evaluation of the ...
Selective pressure may drive neural systems to process as much information as possible with the lowe...
Information is encoded in neural circuits using both graded and action potentials, converting betwee...
In systems biology, questions concerning the molecular and cellular makeup of an organism are of utm...
Information is encoded in neural circuits using both graded and action potentials, converting betwee...
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...
In systems biology, questions concerning the molecular and cellular makeup of an organism are of utm...
One of the primary computational requirements of a cellular system is the ability to transfer inform...
The human brain consumes 106 times less energy than the currently fastest super computer [1], while ...
Does the nervous system "tune" itself to perform at peak efficiency? Optimal transmission of informa...