Oğuztöreli M N
Biol Cybern. 1980;37(1):53-61. doi: 10.1007/BF00347642.
In the present work we investigate the neuronal activities in a vertebrate retina by modelling and simulations using the results of (Oğuztöreli, 1979). The basic retinal network considered here consists of interconnected five neurons: a receptor cell (rod or cone), a horizontal cell, a bipolar cell, an amacrine cell, and a retinal ganglion cell. The mathematical model for the basic network is a system of nonlinear ordinary integral differential difference equations. A number of simulations describing the dynamics of the neural activities in the basic network under different conditions are presented, actual and steady-state solutions are discussed. An algorithm is proposed for the determination of the system parameters experimentally.
在本研究中,我们利用(奥古兹托雷利,1979年)的研究结果,通过建模和模拟来研究脊椎动物视网膜中的神经元活动。这里所考虑的基本视网膜网络由五个相互连接的神经元组成:一个受体细胞(视杆细胞或视锥细胞)、一个水平细胞、一个双极细胞、一个无长突细胞和一个视网膜神经节细胞。基本网络的数学模型是一个非线性常积分微分差分方程组。给出了一些描述基本网络在不同条件下神经活动动态的模拟结果,并讨论了实际解和稳态解。提出了一种通过实验确定系统参数的算法。
