Optimal Resonances in Multiplex Neural Networks Driven by an STDP Learning Rule
Yamakou M, Tran TD, Jost J (2022)
Publication Type: Journal article
Publication year: 2022
Journal
Book Volume: 10
Abstract
In this paper, we numerically investigate two distinct phenomena, coherence resonance (CR) and self-induced stochastic resonance (SISR), in multiplex neural networks in the presence of spike-timing-dependent plasticity (STDP). The high degree of CR achieved in one layer network turns out to be more robust than that of SISR against variations in the network topology and the STDP parameters. This behavior is the opposite of the one presented by Yamakou and Jost (Phys. Rev. E 100, 022313, 2019), where SISR is more robust than CR against variations in the network parameters but in the absence of STDP. Moreover, the degree of SISR in one layer network increases with a decreasing (increasing) depression temporal window (potentiation adjusting rate) of STDP. However, the poor degree of SISR in one layer network can be significantly enhanced by multiplexing this layer with another one exhibiting a high degree of CR or SISR and suitable inter-layer STDP parameter values. In addition, for all inter-layer STDP parameter values, the enhancement strategy of SISR based on the occurrence of SISR outperforms the one based on CR. Finally, the optimal enhancement strategy of SISR based on the occurrence of SISR (CR) occurs via long-term potentiation (long-term depression) of the inter-layer synaptic weights.
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APA:
Yamakou, M., Tran, T.D., & Jost, J. (2022). Optimal Resonances in Multiplex Neural Networks Driven by an STDP Learning Rule. Frontiers in Physics, 10. https://doi.org/10.3389/fphy.2022.909365
MLA:
Yamakou, Marius, Tat Dat Tran, and Juergen Jost. "Optimal Resonances in Multiplex Neural Networks Driven by an STDP Learning Rule." Frontiers in Physics 10 (2022).
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