Periodic Oscillation in Neutrophil Models with Time Delays

Suqi Ma
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引用次数: 1

Abstract

To understand dynamical characters of neutrophil dynamical behavior, the sensitivity of delay factors which has effects on system dynamic behavior is ubiquitous due to system’s highly nonlinearity. Here we prove that delay supports a subcritical Hopf bifurcation, underlying a feedback mechanism during stem cells proliferation process while changing its coefficient of amplification. The given cell model reproduces a bistable dynamic regime of blood cells and hysteresis. Applying multiple scale method, oscillation motion near Hopf point is discussed. The stability limit of steady state to be abruptly periodic solution is detected.
时滞中性粒细胞模型的周期振荡
为了了解中性粒细胞动力学行为的动力学特性,由于系统的高度非线性,影响系统动力学行为的延迟因素的敏感性是普遍存在的。在这里,我们证明延迟支持亚临界Hopf分岔,在干细胞增殖过程中潜在的反馈机制,同时改变其放大系数。给定的细胞模型再现了血细胞和迟滞的双稳态动态状态。应用多尺度法,讨论了Hopf点附近的振荡运动。检测了稳态为突发性周期解的稳定性极限。
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