Spike-timing dependent plasticity (STDP) has traditionally been of great interest to theoreticians, as it seems to provide an answer to the question of how the brain can develop functional structure in response to repeated stimuli. However, despite this high level of interest, convincing demonstrations of this capacity in large, initially random networks have not been forthcoming. Such demonstrations as there are typically rely on constraining the problem artificially. Techniques include employing additional pruning mechanisms or STDP rules that enhance symmetry breaking, simulating networks with low connectivity that magnify competition between synapses, or combinations of the above. In this paper we first review modeling choices that carr...
International audienceWe investigate spike-timing dependent plasticity (STPD) in the case of a synap...
Non-random connectivity can emerge without structured external input driven by activity-dependent me...
The dynamics of local cortical networks are irregular, but correlated. Dynamic excitatory-inhibitory...
Recent results about spike-timing-dependent plasticity (STDP) in recurrently connected neurons are r...
The balanced random network model attracts considerable interest be-cause it explains the irregular ...
Network activity and network connectivity mutually influence each other. Especially for fast process...
Spike-timing-dependent plasticity (STDP) determines the evolution of the synaptic weights according ...
<div><p>Spike timing-dependent plasticity (STDP) modifies synaptic strengths based on timing informa...
Spike-timing-dependent plasticity (STDP) modifies the weight (or strength) of synaptic connections b...
We show that the local Spike Timing-Dependent Plasticity (STDP) rule has the effect of regulating th...
In neuroscience, learning and memory are usually associated to long-term changes of connection stren...
We study the interplay of topology and dynamics in a neural network connected with spike-timing-depe...
Recent experimental data from the rodent cerebral cortex and olfactory bulb indicate that specific c...
Non-random connectivity can emerge without structured external input driven by activity-dependent me...
Thought to be responsible for memory, synaptic plasticity has been widely studied in the past few de...
International audienceWe investigate spike-timing dependent plasticity (STPD) in the case of a synap...
Non-random connectivity can emerge without structured external input driven by activity-dependent me...
The dynamics of local cortical networks are irregular, but correlated. Dynamic excitatory-inhibitory...
Recent results about spike-timing-dependent plasticity (STDP) in recurrently connected neurons are r...
The balanced random network model attracts considerable interest be-cause it explains the irregular ...
Network activity and network connectivity mutually influence each other. Especially for fast process...
Spike-timing-dependent plasticity (STDP) determines the evolution of the synaptic weights according ...
<div><p>Spike timing-dependent plasticity (STDP) modifies synaptic strengths based on timing informa...
Spike-timing-dependent plasticity (STDP) modifies the weight (or strength) of synaptic connections b...
We show that the local Spike Timing-Dependent Plasticity (STDP) rule has the effect of regulating th...
In neuroscience, learning and memory are usually associated to long-term changes of connection stren...
We study the interplay of topology and dynamics in a neural network connected with spike-timing-depe...
Recent experimental data from the rodent cerebral cortex and olfactory bulb indicate that specific c...
Non-random connectivity can emerge without structured external input driven by activity-dependent me...
Thought to be responsible for memory, synaptic plasticity has been widely studied in the past few de...
International audienceWe investigate spike-timing dependent plasticity (STPD) in the case of a synap...
Non-random connectivity can emerge without structured external input driven by activity-dependent me...
The dynamics of local cortical networks are irregular, but correlated. Dynamic excitatory-inhibitory...