An improved Newton-Traub composition for solving systems of nonlinear equations
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Publication:1733677
DOI10.1016/J.AMC.2016.05.051zbMath1410.65198OpenAlexW2484894647MaRDI QIDQ1733677
Ashu Bahl, Rajni Sharma, Janak Raj Sharma
Publication date: 21 March 2019
Published in: Applied Mathematics and Computation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.amc.2016.05.051
Newton methodsystems of nonlinear equationscomputational efficiencyorder of convergencebasins of attractionTraub's method
Related Items (14)
A Class of Higher-Order Newton-Like Methods for Systems of Nonlinear Equations ⋮ Ball convergence of an efficient multi-step scheme for solving equations and systems of equations ⋮ Larger convergence regions for an efficient two-step iterative method ⋮ A class of computationally efficient Newton-like methods with frozen inverse operator for nonlinear systems ⋮ Extended comparison between two Newton–Jarratt sixth order schemes for nonlinear models under the same set of conditions ⋮ Design and analysis of a faster King-Werner-type derivative free method ⋮ A faster King–Werner-type iteration and its convergence analysis ⋮ Newton-like methods with increasing order of convergence and their convergence analysis in Banach space ⋮ Local convergence of a Newton-Traub composition in Banach spaces ⋮ A novel bi-parametric sixth order iterative scheme for solving nonlinear systems and its dynamics ⋮ ON A CLASS OF EFFICIENT HIGHER ORDER NEWTON-LIKE METHODS ⋮ A Modified Newton–Özban Composition for Solving Nonlinear Systems ⋮ On the effect of the multidimensional weight functions on the stability of iterative processes ⋮ A class of accurate Newton-Jarratt-like methods with applications to nonlinear models
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