Simultaneous spike-time locking to multiple frequencies
Fabian H. Sinz, Carolin Sachgau, Jörg Henninger, Jan Benda, Jan Grewe
Abstract
Locking of neuronal spikes to external and internal signals is a ubiquitous neurophysiological mechanism that has been extensively studied in several brain areas and species. Using experimental data from the electrosensory system and concise mathematical models, we analyze how a single neuron can simultaneously lock to multiple frequencies. Our findings demonstrate how temporal and rate codes can complement each other and lead to rich neuronal representations of sensory signals.
Topics & Concepts
NeurophysiologyComputer scienceSpike (software development)NeuroscienceSensory systemComplement (music)NeuronLock (firearm)Spike trainMechanism (biology)PhysicsPsychologyBiologyBiochemistryPhenotypeMechanical engineeringQuantum mechanicsEngineeringGeneComplementationSoftware engineeringNeural dynamics and brain functionstochastic dynamics and bifurcationNeuroscience and Neural Engineering