IM Comsa, K Potempa, L Versari… - IEEE Transactions on …, 2022 - europepmc.org
The timing of individual neuronal spikes is essential for biological brains to make fast responses to sensory stimuli. However, conventional artificial neural networks lack the …
IM Comșa, L Versari, T Fischbacher, A Gesmundo… - research.google
The timing of individual neuronal spikes is essential for biological brains to make fast responses to sensory stimuli. However, conventional artificial neural networks lack the …
Decay constant τ[0.1, 2] 0.18 Fire threshold θ[0.1, 1.5] 1.17 Number of hidden layers.[0, 4]⨯[2, 1000]* 1⨯ 340 Number of pulses per layer.[0, 10] 10 Multiplier for non-pulse weights …
IM Comsa, K Potempa, L Versari… - … on neural networks …, 2022 - pubmed.ncbi.nlm.nih.gov
The timing of individual neuronal spikes is essential for biological brains to make fast responses to sensory stimuli. However, conventional artificial neural networks lack the …
I Comsa, IM Comsa, K Potempa, L Versari… - sigport.org
We propose a spiking neural network model that encodes information in the relative timing of individual neuron spikes and performs classification using the first output neuron to spike …
IM Comsa, K Potempa, L Versari, T Fischbacher… - research.google
The timing of individual neuronal spikes is essential for biological brains to make fast responses to sensory stimuli. However, conventional artificial neural networks lack the …