Detecting the subthreshold signal in a neural network via statistical complexity measure

Wu, Yazhen; Sun, Zhongkui; Liu, Yuanyuan

doi:10.1088/1402-4896/acd9fa

Cited by 2 publications

(1 citation statement)

References 46 publications

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“…This highlights that SCM is more effective and accurate than SNR in detecting weak signals within low-dimensional bistable systems. Building upon this, Wu et al further expanded the application of SCM to measure SR behaviors in neural networks, validating its effectiveness 38 . However, their investigation did not consider the influence of time delay on SR in neural networks.…”

Section: Introductionmentioning

confidence: 96%

Detecting stochastic multiresonance in neural networks via statistical complexity measure

Wu,

Sun

2024

Sci Rep

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This paper employs statistical complexity measure (SCM) to investigate the occurrence of stochastic multiresonance (SMR) induced by noise and time delay in small-world neural networks coupled with FitzHugh-Nagumo (FHN) neurons. Our findings reveal that SCM exhibits four local maxima at four optimal noise levels, providing evidence for the occurrence of quadruple stochastic resonances. When time delay $$\tau$$ τ is taken into account in the information transmission, under moderate noise levels, SCM shows several local maxima when $$\tau = nT_{e}$$ τ = n T e with $$n$$ n being a positive integer and $$T_{e}$$ T e being the period of subthreshold signal. This indicates the appearance of delay-induced SMR at the multiples of the period of subthreshold signal. Intriguingly, at low noise levels, a strong coherence between time delay and neuronal firing dynamics emerges at $$\tau = nT_{e} - 2$$ τ = n T e - 2 , as confirmed by a series of SCM maxima at these time delays. Furthermore, the study demonstrates that by adjusting the degrees and sizes of small-world networks, as well as the coupling strength, it is possible to optimize the strength of delay-induced SMR, thus maximizing the detection capability of subthreshold signal. The research results may provide us with an effective approach for understanding the role of time delay in signal detection and information transmission.

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Section: Introductionmentioning

confidence: 96%

Detecting stochastic multiresonance in neural networks via statistical complexity measure

Wu,

Sun

2024

Sci Rep

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Bifurcation Analysis and Optimal Control of an SEIR Model with Limited Medical Resources and Media Impact on Heterogeneous Networks

Sun,

Zhang,

Liu

2024

Int. J. Bifurcation Chaos

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The spread of epidemic diseases is often considered to be bound up with human behavior. Both treatment and awareness-raising are seen as important preventive measures during an outbreak. In this paper, an SEIR model on heterogeneous network containing saturated treatment function with media information variable is constructed. Through mathematical analysis, the basic reproduction number and equilibriums of the system are derived. The global stability of disease-free equilibrium is further proved based on LaSalle’s invariant principle. It is also found that with a gradual increase of the delayed treatment parameter, the system exhibits a transition from forward bifurcation to backward bifurcation with the variation of the basic reproduction number. Finally, an optimal control problem is formulated with both treatment rate and media information dissemination rate as control variables and solved using the Pontryagin’s maximum principle. All the above results are verified by numerical experiments.

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Detecting the subthreshold signal in a neural network via statistical complexity measure

Cited by 2 publications

References 46 publications

Detecting stochastic multiresonance in neural networks via statistical complexity measure

Detecting stochastic multiresonance in neural networks via statistical complexity measure

Bifurcation Analysis and Optimal Control of an SEIR Model with Limited Medical Resources and Media Impact on Heterogeneous Networks

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