research-article

Stability analysis of explicit exponential Rosenbrock methods for stiff differential equations with constant delay

Authors:

Jinwei FangAuthors Info & Claims

Volume 482, Issue C

https://doi.org/10.1016/j.amc.2024.128978

Published: 18 November 2024 Publication History

Abstract

Delay differential equations have been used to model numerous phenomena in nature. We extend the previous work of one of the authors to analyze the stability properties of the explicit exponential Rosenbrock methods for stiff differential equations with constant delay. We first derive sufficient conditions so that the exponential Rosenbrock methods satisfy the desired stability property. We accomplish this without relying on some extreme constraints, which are usually necessary in stability analysis. Then, with the aid of the integral form of the method coefficients, we provide a simple stability criterion that can be easily verified. We also present a theorem on the order barrier for the proposed methods, stating that there is no method of order five or higher that satisfies the simple criterion. Numerical tests are carried out to validate the theoretical results.

Highlights

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Stable explicit exponential Rosenbrock methods for stiff delay differential equations are derived without extreme constraints.

•

A simple stability criterion is presented using integral representation of method coefficients.

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Order barrier theorem: No method of order five or higher satisfies the stability criterion.

References

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Stability analysis of explicit exponential Rosenbrock methods for stiff differential equations with constant delay
1. Theory of computation

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cover image Applied Mathematics and Computation

Applied Mathematics and Computation Volume 482, Issue C

Dec 2024

272 pages

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Elsevier Inc.

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Elsevier Science Inc.

United States

Publication History

Published: 18 November 2024

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