Performing more tasks in parallel is a typical feature of complex brains. These are characterized by the coexistence of excitatory and inhibitory synapses, whose percentage in mammals is measured to have a typical value of 20-30%. Here we investigate parallel learning of more Boolean rules in neuronal networks. We find that multi-task learning results from the alternation of learning and forgetting of the individual rules. Interestingly, a fraction of 30% inhibitory synapses optimizes the overall performance, carving a complex backbone supporting information transmission with a minimal shortest path length. We show that 30% inhibitory synapses is the percentage maximizing the learning performance since it guarantees, at the same time...
One of the most salient and well-recognized features of human goal-directed behavior is our limited ...
In this work we investigate from a computational perspective the efficiency of the Willshaw synaptic...
International audienceIt is widely believed that synaptic modifications underlie learning and memory...
How does the size of a neural circuit influence its learning performance? Larger brains tend to be f...
Learning in a neuronal network is often thought of as a linear superposition of synaptic modificatio...
Characterizing the relation between weight structure and input/output statistics is fundamental for ...
York: Wiley) it is assumed that synaptic plasticity solely depends on the activity of the pre- and t...
Recent studies have proposed that the diffusion of messenger molecules, such as monoamines, can medi...
Animals are proposed to learn the latent rules governing their environment in order to maximize thei...
Animals are proposed to learn the latent rules governing their environment in order to maximize thei...
International audienceWe investigate the role of inhibition in structuring new neural assemblies fol...
AbstractIt is widely believed that synaptic modifications underlie learning and memory. However, few...
Animals are proposed to learn the latent rules governing their environment in order to maximize thei...
Lorsqu'on effectue une tâche, les circuits neuronaux doivent représenter et manipuler des stimuli co...
Networks of neurons connected by plastic all-or-none synapses tend to quickly forget previously acqu...
One of the most salient and well-recognized features of human goal-directed behavior is our limited ...
In this work we investigate from a computational perspective the efficiency of the Willshaw synaptic...
International audienceIt is widely believed that synaptic modifications underlie learning and memory...
How does the size of a neural circuit influence its learning performance? Larger brains tend to be f...
Learning in a neuronal network is often thought of as a linear superposition of synaptic modificatio...
Characterizing the relation between weight structure and input/output statistics is fundamental for ...
York: Wiley) it is assumed that synaptic plasticity solely depends on the activity of the pre- and t...
Recent studies have proposed that the diffusion of messenger molecules, such as monoamines, can medi...
Animals are proposed to learn the latent rules governing their environment in order to maximize thei...
Animals are proposed to learn the latent rules governing their environment in order to maximize thei...
International audienceWe investigate the role of inhibition in structuring new neural assemblies fol...
AbstractIt is widely believed that synaptic modifications underlie learning and memory. However, few...
Animals are proposed to learn the latent rules governing their environment in order to maximize thei...
Lorsqu'on effectue une tâche, les circuits neuronaux doivent représenter et manipuler des stimuli co...
Networks of neurons connected by plastic all-or-none synapses tend to quickly forget previously acqu...
One of the most salient and well-recognized features of human goal-directed behavior is our limited ...
In this work we investigate from a computational perspective the efficiency of the Willshaw synaptic...
International audienceIt is widely believed that synaptic modifications underlie learning and memory...