Effects of electromagnetic induction on vibrational resonance in single neurons and neuronal networks

In this paper, Vibrational Resonance (VR), in which the response of some dynamical systems to a weak, low frequency signal can be enhanced by the optimal amplitude of high frequency signal, is investigated under the effects of electromagnetic induction in both single neurons and small-world networks...

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Bibliographic Details
Published in:Physica A 2020-01, Vol.537, p.122733, Article 122733
Main Authors: Baysal, Veli, Yilmaz, Ergin
Format: Article
Language:English
Subjects:
Electromagnetic induction
Hodgkin–Huxley neuron
Vibrational resonance
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Summary:In this paper, Vibrational Resonance (VR), in which the response of some dynamical systems to a weak, low frequency signal can be enhanced by the optimal amplitude of high frequency signal, is investigated under the effects of electromagnetic induction in both single neurons and small-world networks. We find that the occurrence of VR in single neurons requires less energy in the presence of electromagnetic induction, although the resonant peak of the response reduces. Besides, VR can be obtained in small-world networks both with and without electromagnetic induction. In small-world neuronal networks, the highest resonance peak of VR enhances with an increase in the probability of adding link in case of without electromagnetic induction. On the other hand, with the increasing of the probability of adding link, VR disappears in the presence of relatively strong electromagnetic induction, while it enhances in the presence of relatively weak electromagnetic induction. •The effects of electromagnetic induction on vibrational resonance (VR) phenomenon are examined.•Occurrence of VR in single neurons is less energy demanding process in the presence of electromagnetic induction.•Strong electromagnetic induction vanishes the VR phenomenon in both single neurons and small-world neuronal networks.
ISSN:0378-4371
1873-2119
DOI:10.1016/j.physa.2019.122733