Collocation method for a functional equation arising in behavioral sciences

IF 2.6 2区数学 Q1 MATHEMATICS, APPLIED Journal of Computational and Applied Mathematics Pub Date : 2024-10-29 DOI:10.1016/j.cam.2024.116343

Josefa Caballero , Hanna Okrasińska-Płociniczak , Łukasz Płociniczak , Kishin Sadarangani

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Abstract

We consider a nonlocal functional equation that is a generalization of the mathematical model used in behavioral sciences. The equation is built upon an operator that introduces a convex combination and a nonlinear mixing of the function arguments. We show that, provided some growth conditions of the coefficients, there exists a unique solution in the natural Lipschitz space. Furthermore, we prove that the regularity of the solution is inherited from the smoothness properties of the coefficients.

As a natural numerical method to solve the general case, we consider the collocation scheme of piecewise linear functions. We prove that the method converges with the error bounded by the error of projecting the Lipschitz function onto the piecewise linear polynomial space. Moreover, provided sufficient regularity of the coefficients, the scheme is of the second order measured in the supremum norm.

A series of numerical experiments verify the proved claims and show that the implementation is computationally cheap and exceeds the frequently used Picard iteration by orders of magnitude in the calculation time.

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行为科学中出现的函数方程的搭配法

我们考虑的是一个非局部函数方程，它是对行为科学所用数学模型的概括。该方程建立在一个引入凸组合和函数参数非线性混合的算子之上。我们证明，只要系数有一定的增长条件，自然 Lipschitz 空间中就存在唯一的解。此外，我们还证明了解的正则性继承于系数的平滑性。作为解决一般情况的自然数值方法，我们考虑了片断线性函数的配位方案。我们证明，该方法的收敛误差与将 Lipschitz 函数投影到片断线性多项式空间的误差相一致。此外，只要系数具有足够的正则性，该方案就是以上位法规范衡量的二阶方案。一系列数值实验验证了所证明的说法，并表明该方法的实现在计算上是廉价的，在计算时间上超过了常用的皮卡尔迭代法几个数量级。

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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来源期刊

Journal of Computational and Applied Mathematics 数学-应用数学

CiteScore

5.40

自引率

4.20%

发文量

437

审稿时长

3.0 months

期刊介绍： The Journal of Computational and Applied Mathematics publishes original papers of high scientific value in all areas of computational and applied mathematics. The main interest of the Journal is in papers that describe and analyze new computational techniques for solving scientific or engineering problems. Also the improved analysis, including the effectiveness and applicability, of existing methods and algorithms is of importance. The computational efficiency (e.g. the convergence, stability, accuracy, ...) should be proved and illustrated by nontrivial numerical examples. Papers describing only variants of existing methods, without adding significant new computational properties are not of interest. The audience consists of: applied mathematicians, numerical analysts, computational scientists and engineers.

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