Higher-dimensional separation principle for the analysis of relaxation oscillations in nonlinear systems: application to a model of HIV infection.

Y Lenbury, R Ouncharoen, N Tumrasvin
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Abstract

In this paper, geometric and singular perturbation arguments are utilized to develop a separation condition for the identification of limit cycles in higher-dimensional (n > or = 4) dynamical systems characterized by highly diversified time responses, in which there exists an (n - 3)-dimensional subsystem which quickly reaches a quasi-steady state. The condition, which has been used up to now to analyze relaxation oscillation in slow-fast systems, is extended to accommodate dynamical systems in which more state variables are involved in a special manner which still allows for the use of singular perturbation techniques. Application is then made to a model of human immunodeficiency virus infection in T helper (TH) cell clones with limiting resting TH cell supply.

非线性系统松弛振荡分析的高维分离原理:在HIV感染模型中的应用。
本文利用几何摄动和奇异摄动两种参数,建立了识别具有高度多样化时间响应的高维(n >或= 4)动力系统极限环的分离条件,其中存在一个快速达到准稳态的(n - 3)维子系统。该条件,迄今为止已用于分析慢-快系统中的松弛振荡,被扩展到适应动力系统,其中更多的状态变量以一种特殊的方式参与,仍然允许使用奇异摄动技术。然后应用于限制静息TH细胞供应的辅助性T细胞克隆的人类免疫缺陷病毒感染模型。
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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