A Non-Standard Finite Difference Schemes for the Solution of Stiff Initial Value Problems
DOI:
https://doi.org/10.62054/ijdm/0103.01Keywords:
Approximations, Denominator Functions, Free parameters, Non-standard, Qualitative PropertiesAbstract
In this study, we introduce a novel non-standard finite difference (NSFD) scheme designed to address the challenges posed by stiff initial value problems. Stiffness in differential equations often leads to numerical instability and requires specialized methods for stable and accurate solutions. A novel set of numerical schemes for solving stiff ordinary differential equations caused by the decay of radioactive substances developed. This paper demonstrates the power of normalization in the discretization function. We employed non-local approximation and renormalization of the denominator function to create qualitatively stable schemes for a stiff ordinary differential equation. The schemes' stability properties were verified using numerical experiments. The schemes' performance is evaluated in comparison to other typical finite difference schemes
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