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Convergence of BDF2-Galerkin finite element scheme for cancer invasion model

The European Physical Journal Special Topics Pub Date : 2024-08-12 DOI:10.1140/epjs/s11734-024-01272-6
S. Angelin Shena, J. Manimaran, K. Sethukumarasamy, L. Shangerganesh
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Abstract

This article aims to determine the convergence and error bounds for the fully discrete solutions of the cancer invasion model using two-step backward difference scheme (BDF2) in time and Galerkin finite element approximation in space. The existence and uniqueness of a solution is affirmed. We establish error estimates with optimal order convergence rates for full discretization. Finally, some numerical tests are used to authenticate the scheme’s competency and accuracy.

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癌症侵袭模型的 BDF2-Galerkin 有限元方案的收敛性
本文旨在确定在时间上使用两步后向差分方案(BDF2)和在空间上使用 Galerkin 有限元逼近的癌症入侵模型全离散解的收敛性和误差边界。确定了解的存在性和唯一性。我们为完全离散化建立了具有最优阶收敛率的误差估计。最后,我们使用一些数值测试来验证该方案的能力和准确性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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The European Physical Journal Special Topics
The European Physical Journal Special Topics
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