Solution of the first order linear fuzzy differential equations by some reliable methods

Journal of Fuzzy Set Valued Analysis Pub Date : 1900-01-01 DOI:10.5899/2012/JFSVA-00126
M. Ghanbari
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引用次数: 15

Abstract

Fuzzy differential equations are used in modeling problems in science and engineering. For instance, it is known that the knowledge of dynamical systems modeled by ordinary differential equations is often incomplete or vague. While, fuzzy differential equations represent a proper way to model dynamical systems under uncertainty and vagueness. In this paper, two methods for solving first order linear fuzzy differential equations under generalized differentiability are proposed and compared. These methods are variational iteration method (VIM) and Adomian decomposition method (ADM). The comparison of the exact solutions with solutions obtained by VIM and ADM are in details. The comparison shows that solutions are excellent agreement.
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一阶线性模糊微分方程的可靠解法
模糊微分方程用于科学和工程中的建模问题。例如,众所周知,由常微分方程建模的动力系统的知识往往是不完整或模糊的。而模糊微分方程是不确定性和模糊性条件下动力系统建模的一种合适的方法。本文给出了广义可微条件下求解一阶线性模糊微分方程的两种方法,并进行了比较。这两种方法分别是变分迭代法(VIM)和Adomian分解法(ADM)。并将精确解与用VIM法和ADM法求得的解进行了比较。比较表明,解的一致性很好。
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Journal of Fuzzy Set Valued Analysis
Journal of Fuzzy Set Valued Analysis
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