Effect of higher-order interactions on synchronization of neuron models with electromagnetic induction

作者:

Highlights:

• The present study shows the impact of higher-order interactions on the synchronization of the network of neurons, namely Hindmarsh-Rose and Morris-Lecar models with electromagnetic induction.

• From the analyses, we show that the higher-order interactions stimulate the neurons to synchronize earlier with the minimal value of first-order coupling strengths.

• The inclusion of flux coupling demands higher coupling strengths in both first-order and second-order for the synchronization of neurons in the Hindmarsh-Rose neuron model.

• Morris-Lecar neuron model shows a distinct effect, where the flux coupling diminishes both the first-order and second-order coupling strengths required for the synchronization.

摘要

•The present study shows the impact of higher-order interactions on the synchronization of the network of neurons, namely Hindmarsh-Rose and Morris-Lecar models with electromagnetic induction.•From the analyses, we show that the higher-order interactions stimulate the neurons to synchronize earlier with the minimal value of first-order coupling strengths.•The inclusion of flux coupling demands higher coupling strengths in both first-order and second-order for the synchronization of neurons in the Hindmarsh-Rose neuron model.•Morris-Lecar neuron model shows a distinct effect, where the flux coupling diminishes both the first-order and second-order coupling strengths required for the synchronization.

论文关键词:Higher-order interactions,Morris-Lecar neuron model,Hindmarsh-Rose neuron model,Master stability function,Synchronization

论文评审过程:Received 1 June 2022, Revised 20 July 2022, Accepted 24 July 2022, Available online 10 August 2022, Version of Record 10 August 2022.

论文官网地址:https://doi.org/10.1016/j.amc.2022.127447