A new two-step iterative technique for efficiently solving absolute value equations

IF 1.5 4区 工程技术 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Nisar Gul, Haibo Chen, Javed Iqbal, Rasool Shah
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引用次数: 0

Abstract

Purpose

This work presents a new two-step iterative technique for solving absolute value equations. The developed technique is valuable and effective for solving the absolute value equation. Various examples are given to demonstrate the accuracy and efficacy of the suggested technique.

Design/methodology/approach

In this paper, we present a new two-step iterative technique for solving absolute value equations. This technique is very straightforward, and due to the simplicity of this approach, it can be used to solve large systems with great effectiveness. Moreover, under certain assumptions, we examine the convergence of the proposed method using various theorems. Numerical outcomes are conducted to present the feasibility of the proposed technique.

Findings

This paper gives numerical experiments on how to solve a system of absolute value equations.

Originality/value

Nowadays, two-step approaches are very popular for solving equations (1). For solving AVEs, Liu in Shams (2021), Ning and Zhou (2015) demonstrated two-step iterative approaches. Moosaei et al. (2015) introduced a novel approach that utilizes a generalized Newton’s approach and Simpson’s rule to solve AVEs. Zainali and Lotfi (2018) presented a two-step Newton technique for AVEs that converges linearly. Feng and Liu (2016) have proposed minimization approaches for AVEs and presented their convergence under specific circumstances. Khan et al. (2023), suggested a nonlinear CSCS-like technique and a Picard-CSCS approach. Based on the benefits and drawbacks of the previously mentioned methods, we will provide a two-step iterative approach to efficiently solve equation (1). The numerical results show that our proposed technique converges rapidly and provides a more accurate solution.

高效求解绝对值方程的两步迭代新技术
目的 这项工作提出了一种新的两步迭代技术,用于求解绝对值方程。所开发的技术对于求解绝对值方程既有价值又有效。本文提出了一种新的两步迭代技术,用于求解绝对值方程。这种技术非常简单直接,由于这种方法非常简单,因此可以用来求解大型系统,而且效果显著。此外,在某些假设条件下,我们利用各种定理检验了所提方法的收敛性。本文给出了如何求解绝对值方程组的数值实验。对于求解 AVE,Liu in Shams (2021)、Ning 和 Zhou (2015) 展示了两步迭代法。Moosaei 等人(2015 年)介绍了一种利用广义牛顿法和辛普森法则求解逆向方程的新方法。Zainali 和 Lotfi(2018 年)提出了一种线性收敛的两步牛顿技术来求解 AVE。Feng和Liu(2016)提出了AVE的最小化方法,并介绍了其在特定情况下的收敛性。Khan 等人(2023 年)提出了一种类似 CSCS 的非线性技术和一种 Picard-CSCS 方法。基于前述方法的优缺点,我们将提供一种两步迭代法来有效求解方程 (1)。数值结果表明,我们提出的技术收敛迅速,并能提供更精确的解法。
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
Engineering Computations
Engineering Computations 工程技术-工程:综合
CiteScore
3.40
自引率
6.20%
发文量
61
审稿时长
5 months
期刊介绍: The journal presents its readers with broad coverage across all branches of engineering and science of the latest development and application of new solution algorithms, innovative numerical methods and/or solution techniques directed at the utilization of computational methods in engineering analysis, engineering design and practice. For more information visit: http://www.emeraldgrouppublishing.com/ec.htm
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