Cell Division And The Pantograph Equation

ESAIM Proceedings and Surveys Pub Date : 2018-09-01 DOI:10.1051/PROC/201862158
B. Brunt, A. Zaidi, T. Lynch
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引用次数: 6

Abstract

Simple models for size structured cell populations undergoing growth and division produce a class of functional ordinary differential equations, called pantograph equations, that describe the long time asymptotics of the cell number density. Pantograph equations arise in a number of applications outside this model and, as a result, have been studied heavily over the last five decades. In this paper we review and survey the role of the pantograph equation in the context of cell division. In addition, for a simple case we present a method of solution based on the Mellin transform and establish uniqueness directly from the transform equation.
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细胞分裂和受电弓方程
在生长和分裂过程中,大小结构细胞群体的简单模型产生了一类称为受电弓方程的泛函常微分方程,它描述了细胞数量密度的长时间渐近性。受电弓方程出现在这个模型之外的许多应用中,因此,在过去的50年里,人们对其进行了大量的研究。本文综述了受电弓方程在细胞分裂过程中的作用。此外,对于一个简单的例子,我们提出了一种基于Mellin变换的求解方法,并直接从变换方程中建立唯一性。
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ESAIM Proceedings and Surveys
ESAIM Proceedings and Surveys
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