Delay Neural Networks (DeNN) for exploiting temporal information in event-based datasets
Keywords: Deep Learning, Synaptic Delays, Spiking Neural Networks, Event-based
Abstract: In Deep Neural Networks (DNN) and Spiking Neural Networks (SNN), the information of a neuron is computed based on the sum of the amplitudes (weights) of the electrical potentials received in input from other neurons. We propose here a new class of neural networks, namely Delay Neural Networks (DeNN), where the information of a neuron is computed based on the sum of its input synaptic delays and on the spike times of the electrical potentials received from other neurons.
This way, DeNN are designed to explicitly use exact continuous temporal information of spikes in both forward and backward passes, without approximation. (Deep) DeNN are applied here to images and event-based (audio and visual) data sets. Good performances are obtained, especially for datasets where temporal information is important, with much less parameters and less energy than other models.
Primary Area: applications to computer vision, audio, language, and other modalities
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Submission Number: 7130
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