A high-order reliable and efficient Haar wavelet collocation method for nonlinear problems with two point-integral boundary conditions

Muhammad Ahsan; Weidong Lei; Amir Ali Khan; Aizaz Ullah; Sheraz Ahmad; Shams Ul Arifeen; Zaheer Uddin; Haidong Qu

Alexandria Engineering Journal (May 2023)

A high-order reliable and efficient Haar wavelet collocation method for nonlinear problems with two point-integral boundary conditions

Muhammad Ahsan,
Weidong Lei,
Amir Ali Khan,
Aizaz Ullah,
Sheraz Ahmad,
Shams Ul Arifeen,
Zaheer Uddin,
Haidong Qu

Affiliations

Muhammad Ahsan: School of Civil and Environmental Engineering, Harbin Institute of Technology, Shenzhen 518055, China; Department of Mathematics, University of Swabi, Khyber Pakhtunkhwa 23200, Pakistan
Weidong Lei: School of Civil and Environmental Engineering, Harbin Institute of Technology, Shenzhen 518055, China
Amir Ali Khan: Department of Mathematics, University of Swabi, Khyber Pakhtunkhwa 23200, Pakistan
Aizaz Ullah: Department of Mathematics, University of Swabi, Khyber Pakhtunkhwa 23200, Pakistan
Sheraz Ahmad: Department of Mathematics, University of Swabi, Khyber Pakhtunkhwa 23200, Pakistan
Shams Ul Arifeen: Faculty of Engineering Sciences, GIK Institute, Topi 23640, KP, Pakistan; Department of Sciences and Humanities, National University of Computer and Emerging Sciences, Peshawar 25000, KP, Pakistan
Zaheer Uddin: Department of Basic Sciences, CECOS University of IT and Emerging Sciences Peshawar, Peshawar 25000, Pakistan; Corresponding author.
Haidong Qu: Department of Mathematics, Hanshan Normal University, Chaozhou 515041, China

Journal volume & issue: Vol. 71
pp. 185 – 200

Abstract

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The primary goal of this study is to increase and improve the precision and order of convergence of the well-known Haar wavelet collocation method (HWCM) that is named as Higher order Haar wavelet collocation method (HHWCM). The HHWCM will then be applied to nonlinear ordinary differential equations with a variety of initial conditions, boundary conditions, periodic conditions, two-point conditions, integral conditions, and multi-point integral boundary conditions. The paper also contains important theorem about the convergence of the HHWCM with computational stability. The convergence of HHWCM is then compared to recently published works including the famous HWCM. In nonlinear case the quasilinearization process has been introduced to linearize the differential equation. Different orders of differential equations including homogeneous and non–homogeneous equations with constant and variable coefficients are also tested by HHWCM. The key advantages of the HHWCM include its easy to use, stability, convergence, high order accuracy, and efficiency under a range of boundary conditions. We have also implemented the HHWCM on nonlinear differential equation having no exact solution.

Published in Alexandria Engineering Journal

ISSN: 1110-0168 (Print); 2090-2670 (Online)
Publisher: Elsevier
Country of publisher: Egypt
LCC subjects: Technology: Engineering (General). Civil engineering (General)
Website: http://www.journals.elsevier.com/alexandria-engineering-journal/

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