Spikes are an important part of information transmission between neurons in the biological brain. Biological evidence shows that information is carried in the timing of individual action potentials, rather than only the firing rate. Spiking neural networks are devised to capture more biological characteristics of the brain to construct more powerful intelligent systems. In this paper, we extend our newly proposed supervised learning algorithm called DL-ReSuMe (Delay learning Remote Supervised Method) to train multiple neurons to classify spatiotemporal spiking patterns. In this method, several neurons instead of a single neuron are trained to perform the classification task. The simulation results show that a population of neurons has signi...
Spiking Neural Networks (SNNs) are an exciting prospect in the field of Artificial Neural Networks (...
A supervised learning rule for Spiking Neural Networks (SNNs) is presented that can cope with neuron...
Information encoding in the nervous system is supported through the precise spike timings of neurons...
Recent research has shown the potential capability of spiking neural networks (SNNs) to model comple...
Recent research has shown the potential capability of spiking neural networks (SNNs) to model comple...
Learning is central to infusing intelligence to any biologically inspired system. This study introdu...
This paper presents an Extended Delay Learning based Remote Supervised Method, called EDL, which ext...
In this thesis, a new supervised learning algorithm for multilayer spiking neural networks is presen...
The current article introduces a supervised learning algorithm for multilayer spiking neural network...
Increasing evidence indicates that biological neurons process information conveyed by the precise ti...
There is a biological evidence to prove information is coded through precise timing of spikes in the...
In this thesis, a new supervised learning algorithm for multilayer spik- ing neural networks is pres...
There is a biological evidence to prove information is coded through precise timing of spikes in the...
International audienceWe propose a multi-timescale learning rule for spiking neuron networks, in the...
In a previous work (Mohemmed et al., Method for training a spiking neuron to associate input–output ...
Spiking Neural Networks (SNNs) are an exciting prospect in the field of Artificial Neural Networks (...
A supervised learning rule for Spiking Neural Networks (SNNs) is presented that can cope with neuron...
Information encoding in the nervous system is supported through the precise spike timings of neurons...
Recent research has shown the potential capability of spiking neural networks (SNNs) to model comple...
Recent research has shown the potential capability of spiking neural networks (SNNs) to model comple...
Learning is central to infusing intelligence to any biologically inspired system. This study introdu...
This paper presents an Extended Delay Learning based Remote Supervised Method, called EDL, which ext...
In this thesis, a new supervised learning algorithm for multilayer spiking neural networks is presen...
The current article introduces a supervised learning algorithm for multilayer spiking neural network...
Increasing evidence indicates that biological neurons process information conveyed by the precise ti...
There is a biological evidence to prove information is coded through precise timing of spikes in the...
In this thesis, a new supervised learning algorithm for multilayer spik- ing neural networks is pres...
There is a biological evidence to prove information is coded through precise timing of spikes in the...
International audienceWe propose a multi-timescale learning rule for spiking neuron networks, in the...
In a previous work (Mohemmed et al., Method for training a spiking neuron to associate input–output ...
Spiking Neural Networks (SNNs) are an exciting prospect in the field of Artificial Neural Networks (...
A supervised learning rule for Spiking Neural Networks (SNNs) is presented that can cope with neuron...
Information encoding in the nervous system is supported through the precise spike timings of neurons...