Abstract
We propose a stochastic model of a neuronal population in cases where synaptic delays and also inhibitory coupling are present. We investigate the firing patterns and its control of a neuronal population by means of Fokker-Planck approach. Numerical simulations show that synaptic transmission delay can suppress oscillatory synchronization of neuronal firing and enhance synchronized firing behavior. Neuronal stimulation also indicate that effective desynchronization occur by external stimulation.
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