Open AccessIndependent Component Analysis in Spiking Neurons
Author(s) -
Cristina Savin,
Prashant Joshi,
Jochen Triesch
Publication year - 2010
Publication title -
plos computational biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.628
H-Index - 182
eISSN - 1553-7358
pISSN - 1553-734X
DOI - 10.1371/journal.pcbi.1000757
Subject(s) - independent component analysis , spike timing dependent plasticity , spike (software development) , neuroscience , computer science , spiking neural network , neuron , neural coding , coding (social sciences) , synaptic plasticity , nerve net , plasticity , biological system , artificial intelligence , biology , artificial neural network , mathematics , physics , biochemistry , statistics , receptor , software engineering , thermodynamics
Although models based on independent component analysis (ICA) have been successful in explaining various properties of sensory coding in the cortex, it remains unclear how networks of spiking neurons using realistic plasticity rules can realize such computation. Here, we propose a biologically plausible mechanism for ICA-like learning with spiking neurons. Our model combines spike-timing dependent plasticity and synaptic scaling with an intrinsic plasticity rule that regulates neuronal excitability to maximize information transmission. We show that a stochastically spiking neuron learns one independent component for inputs encoded either as rates or using spike-spike correlations. Furthermore, different independent components can be recovered, when the activity of different neurons is decorrelated by adaptive lateral inhibition.
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