A New Approach to Newton-Type Polynomial Interpolation with Parameters

Zou, Le; Song, Lixin; Weise, Thomas; Chen, Yanping; Zhang, Chen

doi:10.1155/2020/9020541

Cited by 3 publications

(1 citation statement)

References 30 publications

(70 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Because the proposed new interpolation functions are parametric, they are not information." ( Zou, et al, 2020;Zhao, et al 2021).…”

Section: Introductionmentioning

confidence: 99%

Application of Lagrange Interpolation Method to Solve First-Order Differential Equation Using Newton Interpolation Approach

2023

EAJSE

View full text Add to dashboard Cite

One of the important problems in mathematics is finding the analytic solution and numerical solution of the differential equation using various methods and techniques. Most of the researchers tackled different numerical approaches to solve ordinary differential equations. These methods such as the Runge Kutta method, Euler's method, and Taylor's polynomial method have so many issues like difficulties in finding the solution that can lead to singularities or no solution. In this work, we considered Newton's interpolation and Lagrange's interpolation polynomial method (LIPM). These studies combine both Newton's interpolation method and Lagrange method (NIPM) to solve first-order differential equations. The results obtained provide minimum approximative error. The result is supported by solving an example.

show abstract

“…Because the proposed new interpolation functions are parametric, they are not information." ( Zou, et al, 2020;Zhao, et al 2021).…”

Section: Introductionmentioning

confidence: 99%

Application of Lagrange Interpolation Method to Solve First-Order Differential Equation Using Newton Interpolation Approach

2023

EAJSE

View full text Add to dashboard Cite

show abstract

On the Analytical Treatment for the Fractional-Order Coupled Partial Differential Equations via Fixed Point Formulation and Generalized Fractional Derivative Operators

Rashid

Sultana

Idrees

et al. 2022

Journal of Function Spaces

View full text Add to dashboard Cite

High-dimensional fractional equation investigation is a cutting-edge discipline with considerable pragmatic and speculative consequences in engineering, epidemiology, and other scientific disciplines. In this study, a hybrid Jafari transform mixed with the Adomian decomposition method for obtaining the analytical solution to Burgers’ problem is provided. Burgers’ equation is a vital mathematical expression that appears in a variety of computational modelling fields, including fluid mechanics, nonlinear acoustics, gas dynamics, and traffic flow. By considering a hybrid transform, semianalytical techniques are constructed for the Caputo and Atangana-Baleanu fractional derivative operators. Besides that, existence and uniqueness analyses are carried out with the aid of the Banach contraction-fixed point theory. To obtain the models’ findings, we employed the Jafari transform on fractional-order Burger equations (BEs), supplemented by the inverse Jafari transform. The projected findings for the fractional BEs have been depicted visually. Ultimately, numerical figures are provided to validate the practicality and efficacy. The solution obtained by employing the supplied methodologies has been validated to have the appropriate rate of convergence to the precise solution. The main advantage of the suggested method is the relatively small number of computations performed. It can also be used to address fractional-order scientific issues in a multitude of fields.

show abstract

Nonsingular Fast Terminal Sliding Mode-Based Lateral Stability Control for Three-Axis Heavy Vehicles

Sun,

Quan,

Dong

et al. 2024

Preprint

View full text Add to dashboard Cite

A New Approach to Newton-Type Polynomial Interpolation with Parameters

Cited by 3 publications

References 30 publications

Application of Lagrange Interpolation Method to Solve First-Order Differential Equation Using Newton Interpolation Approach

Application of Lagrange Interpolation Method to Solve First-Order Differential Equation Using Newton Interpolation Approach

On the Analytical Treatment for the Fractional-Order Coupled Partial Differential Equations via Fixed Point Formulation and Generalized Fractional Derivative Operators

Nonsingular Fast Terminal Sliding Mode-Based Lateral Stability Control for Three-Axis Heavy Vehicles

Contact Info

Product

Resources

About