基于延迟的持续化学振荡器：基于Oregonator模型的定性分析

IEEE life sciences letters Pub Date : 2017-09-26 DOI:10.1109/LLS.2017.2756834

Hakki Ulaş Ünal;Islam Boussaada;Silviu-Iulian Niculescu

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引用次数: 3

摘要

Belousov–Zhabotinsky（BZ）反应是一种复杂的化学反应，在一些真实的生物振荡器中观察到持续振荡。然而，它的振荡行为用一种简单的机制来表示，称为Oregonator。由于延迟会导致意想不到的行为，因此在延迟存在的情况下BZ反应的动力学问题还没有得到充分的解决。为了理解反应中延迟参数引起的影响，通过使用基于双延迟Oregonator的模型，我们讨论了模型在延迟浓度和延迟激活方面的定性性质（正性、有界性和稳定性）。数值结果验证了定性/定量分析所描述的模型的性质。

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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A Delay-Based Sustained Chemical Oscillator: Qualitative Analysis of Oregonator-Based Models

The Belousov-Zhabotinsky (BZ) reaction is a complex chemical reaction exhibiting sustained oscillations observed in some real biological oscillators. However, its oscillatory behavior is represented by a simple mechanism, called the Oregonator. Since delay induces unexpected behaviors, the dynamics in BZ reaction in the presence of delays has not been sufficiently addressed. In order to understand the effects induced by the delay parameter in the reaction, by using a two-delay Oregonator-based model, we address the qualitative properties (positivity, boundedness, and stability) of the model in terms of delayed-concentration and delayed-activation. Numerical results are presented to verify the properties of the model described by a qualitative/quantitative analysis.

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IEEE life sciences letters

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