存在刺激和随机噪声时的改良霍奇金-赫胥黎模型研究

IF 0.3 Q4 MECHANICS
V. V. Aleksandrov, I. A. Kozik, Yu. S. Semenov
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引用次数: 0

摘要

摘要 本文继续对存在随机噪声的修正霍奇金-赫胥黎模型进行研究。研究表明,加入一定的短时刺激电流后,低振幅的随机噪声并不能阻止系统从小稳定极限周期附近的运动(根据主要的神经生理学''全或无''法则的''无''模式)过渡到沿着被称为''鸭鼻子''的大稳定极限周期的运动(分别为''全''模式)。同时,高振幅随机噪声会产生一系列从一种状态到另一种状态的转换,反之亦然,即使是短时间的刺激也是如此。在没有刺激和存在高振幅噪声的情况下,早些时候在计算机模拟中就观察到了这一系列转换。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Study of Modified Hodgkin–Huxley Model in the Presence of Stimulation and Random Noise

Study of Modified Hodgkin–Huxley Model in the Presence of Stimulation and Random Noise

Study of Modified Hodgkin–Huxley Model in the Presence of Stimulation and Random Noise

In the paper we continue the research on the modified Hodgkin–Huxley model in the presence of random noise. It is shown that, adding a certain short-time stimulation current, a random noise of low amplitude does not prevent the system transition from the motion within a neighborhood of the small stable limit cycle (the mode ‘‘None’’ in accordance with the principal neurophysiological ‘‘All or none’’-law) to the motion along the big stable limit cycle called ‘‘duck nose’’ (the mode ‘‘All’’ respectively). At the same time, the high amplitude random noise can yield a series of transitions from one regime to the other and vice versa, even for a short-time stimulation. In the absence of stimulation and in the presence of high amplitude noise, such series of transitions were observed earlier during computer simulation.

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来源期刊
CiteScore
0.60
自引率
0.00%
发文量
9
期刊介绍: Moscow University Mechanics Bulletin  is the journal of scientific publications, reflecting the most important areas of mechanics at Lomonosov Moscow State University. The journal is dedicated to research in theoretical mechanics, applied mechanics and motion control, hydrodynamics, aeromechanics, gas and wave dynamics, theory of elasticity, theory of elasticity and mechanics of composites.
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