研究了简谐噪声激励下的FitzHugh-Nagumo神经元模型,其放电形式、相干共振等动力学行为均受噪声阻尼参数和频率参数的影响.选择不同的参数所得到的神经元的放电形式不同.神经元存在共振特性,对某一频率的噪声有更强的响应,在此频率参数下的峰序列更有序,出现相干共振系数的极小值.噪声的阻尼参数越大,不同的频率成分越多,神经元的响应也变得杂乱,进而导致神经元与噪声的同步变弱,峰序列相干共振系数也相应增大.
The FitzHugh-Nagumo neuron model driven by a harmonic noise is investigated,whose dynamic behaviours are influenced by the frequency and the damping parameters of noise.The spikes train varies with these two parameters changing.The FitzHugh-Nagumo neuron has resonance characteristic and exhibits stronger response to noise with a given frequency.Undernoise with this frequency parameter,the spikes train is more regular and the coefficient of coherent resonance reaches the minimum.The larger the damping parameter of the noise is,the more the different ingredients are,thus the synchronization between neuron and noise becomes more imperfect and the coefficient of coherent resonance is larger.