Impact of adaptation currents on synchronization of coupled exponential integrate-and-fire neurons

PLoS Computational Biology

Volumn 8, Issue 4, 2012, Pages

  Ladenbauer, Josef ^a,b   Augustin, Moritz ^a   Shiau, LieJune ^c   Obermayer, Klaus ^a,b  

^a TECHNISCHE UNIVERSITÄT BERLIN   (Germany)

^b BERNSTEIN CENTER FOR COMPUTATIONAL NEUROSCIENCE   (Germany)

^c University of Houston   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

LOCKS (FASTENERS); NEURAL NETWORKS; SYNCHRONIZATION;

'CURRENT; ANTIPHASE; EXPONENTIAL INTEGRATE-AND-FIRE; INTEGRATE-AND-FIRE NEURONS; LOWER FREQUENCIES; PHASE ADVANCE; PHASE RESPONSE CURVES; PHASE-LOCKING; SPIKING NEURONES; SUBTHRESHOLD;

NEURONS;

ADAPTATION; ADAPTIVE EXPONENTIAL INTEGRATE AND FIRE NEURON MODEL; ANTI PHASE LOCKING; ARTICLE; BIOLOGICAL MODEL; BIOPHYSICS; BRAIN NERVE CELL; CELL SYNCHRONIZATION; CONTROLLED STUDY; COUPLED EXCITATORY NEURON; HODGKIN HUXLEY EQUATION; IN PHASE LOCKING; INHIBITORY NERVE CELL; NERVE CELL BIFURCATION CURRENT; NERVE CELL INHIBITION; NERVE CELL MEMBRANE POTENTIAL; NERVE CELL NETWORK; NERVE CELL STIMULATION; NERVE CHARACTERISTICS AND FUNCTIONS; NERVE CONDUCTION; NERVE CONDUCTION DELAY; NERVOUS SYSTEM PARAMETERS; NEURONAL SYNCHRONIZATION; OSCILLATION; PHASE RESPONSE CURVE; SIMULATION; SPIKE FREQUENCY ADAPTATION; SYNAPSE; TRAUB NEURON MODEL; ACTION POTENTIAL; ANIMAL; CELL MEMBRANE POTENTIAL; COMPUTER SIMULATION; HUMAN; NERVE CELL; NERVE CELL PLASTICITY; PHYSIOLOGY; SYNAPTIC TRANSMISSION;

ACTION POTENTIALS; ADAPTATION, PHYSIOLOGICAL; ANIMALS; COMPUTER SIMULATION; HUMANS; MEMBRANE POTENTIALS; MODELS, NEUROLOGICAL; NERVE NET; NEURONAL PLASTICITY; NEURONS; SYNAPTIC TRANSMISSION;

EID: 84861133624     PISSN: 1553734X     EISSN: 15537358     Source Type: Journal    
DOI: 10.1371/journal.pcbi.1002478     Document Type: Article

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