It is believed that energy efficiency is an important constraint in brain evolution. As synaptic transmission dominates energy consumption, energy can be saved by ensuring that only a few synapses are active. It is therefore likely that the formation of sparse codes and sparse connectivity are fundamental objectives of synaptic plasticity. In this work we study how sparse connectivity can result from a synaptic learning rule of excitatory synapses. Information is maximised when potentiation and depression are balanced according to the mean presynaptic activity level and the resulting fraction of zero-weight synapses is around 50%. However, an imbalance towards depression increases the fraction of zero-weight synapses without significantly a...
Experimental investigations have revealed that synapses possess interesting and, in some cases, unex...
Synaptic changes are hypothesized to underlie learning and memory formation in the brain. But Hebbia...
This paper explores the computational consequences of simultaneous in-trinsic and synaptic plasticit...
It is believed that energy efficiency is an important constraint in brain evolution. As synaptic tra...
It is believed that energy efficiency is an important constraint in brain evolution. As synaptic tra...
© 2020 Elsevier Ltd. All rights reserved. This manuscript is licensed under the Creative Commons Att...
Selective pressure may drive neural systems to process as much information as possible with the lowe...
When an action potential arrives at a synapse there is a large probability that no neurotransmitter ...
Many aspects of the brain’s design can be understood as the result of evolutionary drive towards eff...
SummaryThe synaptic connectivity within neuronal networks is thought to determine the information pr...
Theoretical studies have shown that memories last longer if the neural representations are sparse, t...
Coding principles are central to understanding the organization of brain circuitry. Sparse coding of...
About 50-80% of total energy is consumed by signaling in neural networks. A neural network consumes ...
A balance between excitatory and inhibitory synaptic currents is thought to be important for several...
AbstractIt is widely believed that synaptic modifications underlie learning and memory. However, few...
Experimental investigations have revealed that synapses possess interesting and, in some cases, unex...
Synaptic changes are hypothesized to underlie learning and memory formation in the brain. But Hebbia...
This paper explores the computational consequences of simultaneous in-trinsic and synaptic plasticit...
It is believed that energy efficiency is an important constraint in brain evolution. As synaptic tra...
It is believed that energy efficiency is an important constraint in brain evolution. As synaptic tra...
© 2020 Elsevier Ltd. All rights reserved. This manuscript is licensed under the Creative Commons Att...
Selective pressure may drive neural systems to process as much information as possible with the lowe...
When an action potential arrives at a synapse there is a large probability that no neurotransmitter ...
Many aspects of the brain’s design can be understood as the result of evolutionary drive towards eff...
SummaryThe synaptic connectivity within neuronal networks is thought to determine the information pr...
Theoretical studies have shown that memories last longer if the neural representations are sparse, t...
Coding principles are central to understanding the organization of brain circuitry. Sparse coding of...
About 50-80% of total energy is consumed by signaling in neural networks. A neural network consumes ...
A balance between excitatory and inhibitory synaptic currents is thought to be important for several...
AbstractIt is widely believed that synaptic modifications underlie learning and memory. However, few...
Experimental investigations have revealed that synapses possess interesting and, in some cases, unex...
Synaptic changes are hypothesized to underlie learning and memory formation in the brain. But Hebbia...
This paper explores the computational consequences of simultaneous in-trinsic and synaptic plasticit...