Dynamics of Delayed Neuroendocrine Systems and Their Reconstructions Using Sparse Identification and Reservoir Computing

Penghe Ge, Hongjun Cao
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Abstract

Neuroendocrine system mainly consists of hypothalamus, anterior pituitary, and target organ. In this paper, a three-state-variable delayed Goodwin model with two Hill functions is considered, where the Hill functions with delays denote the hormonal feedback suppressions from target organ to hypothalamus and to anterior in the reproductive hormonal axis. The existence of Hopf bifurcation shows the circadian rhythms of neuroendocrine system. The direction and stability of Hopf bifurcation are also analyzed using the normal form theory and the center manifold theorem for functional differential equations. Furthermore, based on the sparse identification algorithm, it is verified that the transient time series generated from the delayed Goodwin model cannot be equivalently presented by ordinary differential equations from the viewpoint of data when considering that a library of candidates are at most cubic terms. The reason is because the solution space of delayed differential equations is of infinite dimensions. Finally, we report that reservoir computing can predict the periodic behaviors of the delayed Goodwin model accurately if the size of reservoir and the length of data used for training are large enough. The predicting performances are evaluated by the mean squared errors between the trajectories generated from the numerical simulations and the reservoir computing.
迟发性神经内分泌系统动力学及其稀疏识别和储层计算重建
神经内分泌系统主要由下丘脑、垂体前叶和靶器官组成。本文考虑了一个具有两个Hill函数的三状态变量延迟古德温模型,其中带有延迟的Hill函数表示生殖激素轴上从靶器官到下丘脑和到前肢的激素反馈抑制。Hopf分岔的存在反映了神经内分泌系统的昼夜节律。利用泛函微分方程的范式理论和中心流形定理,分析了Hopf分岔的方向和稳定性。此外,基于稀疏识别算法,从数据的角度验证了当候选库最多为三次项时,延迟古德温模型生成的瞬态时间序列不能用常微分方程等效表示。这是因为时滞微分方程的解空间是无限维的。最后,我们报告了储层计算可以准确地预测延迟古德温模型的周期行为,如果储层的大小和用于训练的数据长度足够大。利用数值模拟生成的轨迹与油藏计算结果之间的均方误差来评价预测性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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