AbstractWe consider the combined effects of active dendrites and structural plasticity on the storage capacity of neural tissue. We compare capacity for two different modes of dendritic integration: (1) linear, where synaptic inputs are summed across the entire dendritic arbor, and (2) nonlinear, where each dendritic compartment functions as a separately thresholded neuron-like summing unit. We calculate much larger storage capacities for cells with nonlinear subunits and show that this capacity is accessible to a structural learning rule that combines random synapse formation with activity-dependent stabilization/elimination. In a departure from the common view that memories are encoded in the overall connection strengths between neurons, ...
The continuous turnover of synapses observed in cortical networks poses a severe problem for storing...
It has been conjectured that nonlinear processing in dendritic branches endows individual neurons wi...
Long-term synaptic plasticity requires postsynaptic influx of Ca²⁺ and is accompanied by changes in ...
AbstractWe consider the combined effects of active dendrites and structural plasticity on the storag...
Neurons are the computational building blocks of our brains. They form complicated net- works that p...
Although already William James and, more explicitly, Donald Hebb's theory of cell assemblies have su...
We have previously shown using biophysically detailed compartmental models that nonlinear interactio...
Synaptic plasticity is thought to be the principal neuronal mechanism underlying learning. Models of...
In order to record the stream of autobiographical information that defines our unique personal histo...
In order to record the stream of autobiographical information that defines our unique personal histo...
Changing the strength of connections between neurons is widely assumed to be the mechanism by which ...
It is generally accepted that complex memories are stored in distributed representations throughout ...
One of the key questions in neuroscience is how our brain self-organises to efficiently process info...
SummaryMemories are believed to be stored in distributed neuronal assemblies through activity-induce...
Memories are believed to be stored in distributed neuronal assemblies through activity-induced chang...
The continuous turnover of synapses observed in cortical networks poses a severe problem for storing...
It has been conjectured that nonlinear processing in dendritic branches endows individual neurons wi...
Long-term synaptic plasticity requires postsynaptic influx of Ca²⁺ and is accompanied by changes in ...
AbstractWe consider the combined effects of active dendrites and structural plasticity on the storag...
Neurons are the computational building blocks of our brains. They form complicated net- works that p...
Although already William James and, more explicitly, Donald Hebb's theory of cell assemblies have su...
We have previously shown using biophysically detailed compartmental models that nonlinear interactio...
Synaptic plasticity is thought to be the principal neuronal mechanism underlying learning. Models of...
In order to record the stream of autobiographical information that defines our unique personal histo...
In order to record the stream of autobiographical information that defines our unique personal histo...
Changing the strength of connections between neurons is widely assumed to be the mechanism by which ...
It is generally accepted that complex memories are stored in distributed representations throughout ...
One of the key questions in neuroscience is how our brain self-organises to efficiently process info...
SummaryMemories are believed to be stored in distributed neuronal assemblies through activity-induce...
Memories are believed to be stored in distributed neuronal assemblies through activity-induced chang...
The continuous turnover of synapses observed in cortical networks poses a severe problem for storing...
It has been conjectured that nonlinear processing in dendritic branches endows individual neurons wi...
Long-term synaptic plasticity requires postsynaptic influx of Ca²⁺ and is accompanied by changes in ...