Tuning bat LSO neurons to interaural intensity differences through spike-timing dependent plasticity.
Fontaine, Bertrand
Tuning bat LSO neurons to interaural intensity differences through spike-timing dependent plasticity. [electronic resource] - Biological cybernetics Oct 2007 - 261-7 p. digital
Publication Type: Comparative Study; Letter; Research Support, Non-U.S. Gov't
0340-1200
10.1007/s00422-007-0178-9 doi
Action Potentials--physiology
Animals
Artificial Intelligence
Auditory Pathways--physiology
Chiroptera--anatomy & histology
Computer Simulation
Echolocation--physiology
Functional Laterality--physiology
Learning--physiology
Neural Conduction--physiology
Neural Inhibition--physiology
Neural Networks, Computer
Neuronal Plasticity--physiology
Neurons--physiology
Olivary Nucleus--anatomy & histology
Pons--anatomy & histology
Reaction Time--physiology
Synaptic Transmission--physiology
Time Factors
Tuning bat LSO neurons to interaural intensity differences through spike-timing dependent plasticity. [electronic resource] - Biological cybernetics Oct 2007 - 261-7 p. digital
Publication Type: Comparative Study; Letter; Research Support, Non-U.S. Gov't
0340-1200
10.1007/s00422-007-0178-9 doi
Action Potentials--physiology
Animals
Artificial Intelligence
Auditory Pathways--physiology
Chiroptera--anatomy & histology
Computer Simulation
Echolocation--physiology
Functional Laterality--physiology
Learning--physiology
Neural Conduction--physiology
Neural Inhibition--physiology
Neural Networks, Computer
Neuronal Plasticity--physiology
Neurons--physiology
Olivary Nucleus--anatomy & histology
Pons--anatomy & histology
Reaction Time--physiology
Synaptic Transmission--physiology
Time Factors