Are single neocortical neurons as powerful as multi-layered networks? A recent compartmental modeling study has shown that voltage-dependent membrane nonlinearities present in a complex dendritic tree can provide a virtual layer of local nonlinear processing elements between synaptic inputs and the final output at the cell body, analogous to a hidden layer in a multi-layer network. In this paper, an abstract model neuron is introduced, called a clusteron, which incorporates aspects of the dendritic "cluster-sensitivity" phenomenon seen in these detailed biophysical modeling studies. It is shown, using a clusteron, that a Hebb-type learning rule can be used to extract higher-order statistics from a set of training patterns, by mani...
How can neural networks learn to efficiently represent complex and high-dimensional inputs via local...
International audience Advances in neuronal studies suggest that a single neuron can perform integra...
Dendrites of pyramidal cells exhibit complex morphologies and contain a variety of ionic conductance...
Are single neocortical neurons as powerful as multi-layered networks? A recent compartmental modeli...
Are single neocortical neurons as powerful as multi-layered networks? A recent compartmental modelin...
Compartmental simulations of an anatomically characterized cortical pyramidal cell were carried out ...
A major challenge in neuroscience is to reverse engineer the brain and understand its information pr...
Dendrites integrate inputs nonlinearly, but it is unclear how these nonlinearities contribute to the...
The significant role of dendritic processing within neuronal networks has become increasingly clear....
AbstractThe pyramidal neuron is the principal cell type in the mammalian forebrain, but its function...
The dendritic tree of neurons plays an important role in information processing in the brain. While ...
Dendrites shape information flow in neurons. Yet, there is little consensus on the level of spatial ...
Synaptic clustering on neuronal dendrites has been hypothesized to play an important role in impleme...
Single neurons in the brain exhibit astounding computational capabilities, which gradually emerge th...
Neurons are spatially extended structures that receive and process inputs on their dendrites. It is ...
How can neural networks learn to efficiently represent complex and high-dimensional inputs via local...
International audience Advances in neuronal studies suggest that a single neuron can perform integra...
Dendrites of pyramidal cells exhibit complex morphologies and contain a variety of ionic conductance...
Are single neocortical neurons as powerful as multi-layered networks? A recent compartmental modeli...
Are single neocortical neurons as powerful as multi-layered networks? A recent compartmental modelin...
Compartmental simulations of an anatomically characterized cortical pyramidal cell were carried out ...
A major challenge in neuroscience is to reverse engineer the brain and understand its information pr...
Dendrites integrate inputs nonlinearly, but it is unclear how these nonlinearities contribute to the...
The significant role of dendritic processing within neuronal networks has become increasingly clear....
AbstractThe pyramidal neuron is the principal cell type in the mammalian forebrain, but its function...
The dendritic tree of neurons plays an important role in information processing in the brain. While ...
Dendrites shape information flow in neurons. Yet, there is little consensus on the level of spatial ...
Synaptic clustering on neuronal dendrites has been hypothesized to play an important role in impleme...
Single neurons in the brain exhibit astounding computational capabilities, which gradually emerge th...
Neurons are spatially extended structures that receive and process inputs on their dendrites. It is ...
How can neural networks learn to efficiently represent complex and high-dimensional inputs via local...
International audience Advances in neuronal studies suggest that a single neuron can perform integra...
Dendrites of pyramidal cells exhibit complex morphologies and contain a variety of ionic conductance...