分数阶糖尿病模型的分析与仿真

M. Farman, A. Akgül, Aqeel Ahmad
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引用次数: 2

摘要

在本文中,我们使用Caputo和Atangana Baleanu分数导数研究糖尿病模型及其后果。不动点定理和Picard - Lindelof方法对存在唯一性有很强的指导作用。与糖尿病的分数阶导数相对应的确定性数学模型。糖尿病模型的诊断结构采用拉普拉斯变换。最后,通过数值计算说明了分数阶变化对理论结果的影响,并对Caputo和Atangana Baleanu导数进行了比较。通过分数阶模型控制血浆葡萄糖的研究结果使其成为控制人类1型糖尿病的合适候选物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis and Simulation of Fractional-Order Diabetes Model
In this article, we research the diabetes model and its consequences using the Caputo and Atangana Baleanu fractional derivatives. The presence and uniqueness are strongly mentored by the fixed point theorem and the approach to Picard - Lindelof. A deterministic mathematical model corresponding to the fractional derivative of diabetes mellitus. The Laplace transformation is used for the diagnostic structure of the diabetes model. Finally, numerical calculations are made to illustrate the effect of changing the fractional-order to obtain the theoretical results, and comparisons are made for the Caputo and Atangana Baleanu derivative. The results of the following work by controlling plasma glucose with the fractional-order model make it a suitable candidate for controlling human type 1 diabetes.
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