Coexisting Firing Patterns in an Improved Memristive Hindmarsh-Rose Neuron Model with Multi-Frequency Alternating Current Injection

Coexisting Firing Patterns in an Improved Memristive Hindmarsh-Rose Neuron Model with Multi-Frequency Alternating Current Injection

With the development of memristor theory, the application of memristor in the field of the nervous system has achieved remarkable results and has bright development prospects. Flux-controlled memristor can be used to describe the magnetic induction effect of the neuron. Based on the Hindmarsh-Rose (...

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Veröffentlicht in:Micromachines (Basel) 2023-12, Vol.14 (12), p.2233
Hauptverfasser: Wang, Mengjiao, Ding, Jie, Deng, Bingqing, He, Shaobo, Iu, Herbert Ho-Ching
Format: Artikel
Sprache:eng
Schlagworte:
Analog circuits
Behavior
coexisting firing pattern
Current injection
Dynamical systems
Eigenvalues
Equilibrium
flux-controlled memristor
Hindmarsh–Rose neuron model
Interdisciplinary subjects
Magnetic induction
Magnetization
Mathematical models
Memristors
Nervous system
Neural networks
Neurons
Numerical analysis
Ordinary differential equations
Radiation
Simulation methods
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Zusammenfassung:With the development of memristor theory, the application of memristor in the field of the nervous system has achieved remarkable results and has bright development prospects. Flux-controlled memristor can be used to describe the magnetic induction effect of the neuron. Based on the Hindmarsh-Rose (HR) neuron model, a new HR neuron model is proposed by introducing a flux-controlled memristor and a multi-frequency excitation with high-low frequency current superimposed. Various firing patterns under single and multiple stimuli are investigated. The model can exhibit different coexisting firing patterns. In addition, when the memristor coupling strength changes, the multiple stability of the model is eliminated, which is a rare phenomenon. Moreover, an analog circuit is built to verify the numerical simulation results.
ISSN:2072-666X
2072-666X
DOI:10.3390/mi14122233