Abstract
To investigate the effect of electromagnetic induction on the electrical activity of neuron, the variable for magnetic flow is used to improve Hindmarsh–Rose neuron model. Simultaneously, due to the existence of time-delay when signals are propagated between neurons or even in one neuron, it is important to study the role of time-delay in regulating the electrical activity of the neuron. For this end, a four-variable neuron model is proposed to investigate the effects of electromagnetic induction and time-delay. Simulation results suggest that the proposed neuron model can show multiple modes of electrical activity, which is dependent on the time-delay and external forcing current. It means that suitable discharge mode can be obtained by selecting the time-delay or external forcing current, which could be helpful for further investigation of electromagnetic radiation on biological neuronal system.
Highlights
As the important components of neuronal system, neurons have a pivotal role in regulating the dynamical behaviors of neuronal system
Considering the external forcing current and time-delay, which play an important role in neural system, the dynamical behaviors of neuron system (3) is investigated with the change of external forcing current Iext or the time-delay τ
(1) A time-delay 4-D neuron system under electromagnetic induction is addressed by using magnetic flux
Summary
As the important components of neuronal system, neurons have a pivotal role in regulating the dynamical behaviors of neuronal system.
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