The distribution of inhibitory neurons in the C. elegans connectome facilitates self-optimization of coordinated neural activity.
Alejandro MoralesTom FroesePublished in: CoRR (2020)
Keyphrases
- spiking neural networks
- neural network
- visual cortex
- receptive fields
- primary visual cortex
- neural model
- associative memory
- neuron model
- learning rules
- biologically plausible
- synaptic weights
- global optimization
- biologically inspired
- network architecture
- probability distribution
- synaptic plasticity
- neural models
- neural mechanisms
- constrained optimization
- optimization algorithm
- spiking neurons
- distributed representations
- action potentials
- optimization problems
- multi agent
- spike trains
- spatial distribution
- feed forward
- human activities
- cooperative
- bio inspired
- hidden layer
- optimization process
- neural network model
- single neuron
- computational neuroscience
- optimization method
- data distribution
- lateral inhibition
- objective function