Singular Perturbations and Large Time Delays Through Accelerated Spline-Based Compression Technique

Akhila Mariya Regal, Dinesh Kumar S
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Abstract

In the quest to solve the singularly perturbed delay differential equations (SPDDEs) involving large delay with integral boundary condition, the cubic spline in compression technique is explored for the study of dynamical systems to capture complex temporal phenomena in a wide range of scientific disciplines. The integral boundary condition is handled using Simpson's 1/3 rule and the scheme's applicability is validated by numerically experimenting with some problems at different values of mesh size and perturbation parameter. Numerical data are tabulated to show that the suggested approach is more accurate and is an improvement over the methods used in the literature. The insights gained from this research paper provide a foundation for further exploration and utilization of SPDDEs in understanding and predicting the behavior of complex systems across diverse scientific domains.
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通过基于样条的加速压缩技术实现奇异扰动和大时延
为了求解带有积分边界条件、涉及大延迟的奇异扰动延迟微分方程(SPDDEs),研究人员探索了压缩立方样条技术,用于研究动力学系统,以捕捉各种科学学科中的复杂时间现象。利用辛普森 1/3 规则处理积分边界条件,并通过对不同网格尺寸和扰动参数值下的一些问题进行数值实验,验证了该方案的适用性。数值数据以表格形式显示,所建议的方法更加精确,与文献中使用的方法相比有所改进。从本研究论文中获得的见解为进一步探索和利用 SPDDEs 理解和预测不同科学领域复杂系统的行为奠定了基础。
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