Recent modeling of spike-timing-dependent plasticity indicates that plasticity involves as a third factor a local dendritic potential, besides pre- and postsynaptic firing times. We present a simple compartmental neuron model together with a non-Hebbian, biologically plausible learning rule for dendritic synapses where plasticity is modulated by these three factors. In functional terms, the rule seeks to minimize discrepancies between somatic firings and a local dendritic potential. Such prediction errors can arise in our model from stochastic fluctuations as well as from synaptic input, which directly targets the soma. Depending on the nature of this direct input, our plasticity rule subserves supervised or unsupervised learning. When ...
Previous studies focusing on the temporal rules governing changes in synaptic strength during spike ...
Spike-timing-dependent plasticity (STDP) is described by long-term potentiation (LTP), when a presyn...
Abstract. Spike-timing-dependent plasticity (STDP) strengthens synapses that are activated immediate...
SummaryRecent modeling of spike-timing-dependent plasticity indicates that plasticity involves as a ...
Synaptic plasticity is thought to be the principal neuronal mechanism underlying learning. Models of...
<div><p>In the last decade dendrites of cortical neurons have been shown to nonlinearly combine syna...
Recent indirect experimental evidence suggests that synaptic plasticity changes along the dendrites ...
The discovery of binary dendritic events such as local NMDA spikes in dendritic subbranches led to t...
Recent experimental results suggest that dendritic and back-propagating spikes can influence synapti...
How can neural networks learn to efficiently represent complex and high-dimensional inputs via local...
The persistent modification of synaptic efficacy as a function of the rela-tive timing of pre- and p...
Recent experimental results suggest that dendritic and back-propagating spikes can influence synapti...
[5th International Workshop on Neural Coding Aula, Italy, September 20-23, 2003]In spike-timing-depe...
Recent experimental results suggest that dendritic and back-propagating spikes can influence synapti...
Abstract – For biological realism, models of learning in neuronal networks often assume that synapti...
Previous studies focusing on the temporal rules governing changes in synaptic strength during spike ...
Spike-timing-dependent plasticity (STDP) is described by long-term potentiation (LTP), when a presyn...
Abstract. Spike-timing-dependent plasticity (STDP) strengthens synapses that are activated immediate...
SummaryRecent modeling of spike-timing-dependent plasticity indicates that plasticity involves as a ...
Synaptic plasticity is thought to be the principal neuronal mechanism underlying learning. Models of...
<div><p>In the last decade dendrites of cortical neurons have been shown to nonlinearly combine syna...
Recent indirect experimental evidence suggests that synaptic plasticity changes along the dendrites ...
The discovery of binary dendritic events such as local NMDA spikes in dendritic subbranches led to t...
Recent experimental results suggest that dendritic and back-propagating spikes can influence synapti...
How can neural networks learn to efficiently represent complex and high-dimensional inputs via local...
The persistent modification of synaptic efficacy as a function of the rela-tive timing of pre- and p...
Recent experimental results suggest that dendritic and back-propagating spikes can influence synapti...
[5th International Workshop on Neural Coding Aula, Italy, September 20-23, 2003]In spike-timing-depe...
Recent experimental results suggest that dendritic and back-propagating spikes can influence synapti...
Abstract – For biological realism, models of learning in neuronal networks often assume that synapti...
Previous studies focusing on the temporal rules governing changes in synaptic strength during spike ...
Spike-timing-dependent plasticity (STDP) is described by long-term potentiation (LTP), when a presyn...
Abstract. Spike-timing-dependent plasticity (STDP) strengthens synapses that are activated immediate...