A New Adaptive Eleventh-Order Memory Algorithm for Solving Nonlinear Equations

Panday, Sunil; Mittal, Shubham Kumar; Stoenoiu, Carmen Elena; Jäntschi, Lorentz

doi:10.3390/math12121809

Mathematics

2024

DOI: 10.3390/math12121809

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A New Adaptive Eleventh-Order Memory Algorithm for Solving Nonlinear Equations

Sunil Panday,

Shubham Kumar Mittal,

Carmen Elena Stoenoiu

et al.

Abstract: In this article, we introduce a novel three-step iterative algorithm with memory for finding the roots of nonlinear equations. The convergence order of an established eighth-order iterative method is elevated by transforming it into a with-memory variant. The improvement in the convergence order is achieved by introducing two self-accelerating parameters, calculated using the Hermite interpolating polynomial. As a result, the R-order of convergence for the proposed bi-parametric with-memory iterative algorithm… Show more

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2024

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Cited by 2 publications

References 37 publications

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Extension of an Eighth-Order Iterative Technique to Address Non-Linear Problems

Ramos,

Argyros,

Behl

et al. 2024

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The convergence order of an iterative method used to solve equations is usually determined by using Taylor series expansions, which in turn require high-order derivatives, which are not necessarily present in the method. Therefore, such convergence analysis cannot guarantee the theoretical convergence of the method to a solution if these derivatives do not exist. However, the method can converge. This indicates that the most sufficient convergence conditions required by the Taylor approach can be replaced by weaker ones. Other drawbacks exist, such as information on the isolation of simple solutions or the number of iterations that must be performed to achieve the desired error tolerance. This paper positively addresses all these issues by considering a technique that uses only the operators on the method and Ω-generalized continuity to control the derivative. Moreover, both local and semi-local convergence analyses are presented for Banach space-valued operators. The technique can be used to extend the applicability of other methods along the same lines. A large number of concrete examples are shown in which the convergence conditions are fulfilled.

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Extension of an Eighth-Order Iterative Technique to Address Non-Linear Problems

Ramos,

Argyros,

Behl

et al. 2024

Axioms

View full text Add to dashboard Cite

show abstract

Enhanced Ninth-Order Memory-Based Iterative Technique for Efficiently Solving Nonlinear Equations

Mittal,

Panday,

Jäntschi

2024

Mathematics

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In this article, we present a novel three-step with-memory iterative method for solving nonlinear equations. We have improved the convergence order of a well-known optimal eighth-order iterative method by converting it into a with-memory version. The Hermite interpolating polynomial is utilized to compute a self-accelerating parameter that improves the convergence order. The proposed uni-parametric with-memory iterative method improves its R-order of convergence from 8 to 8.8989. Additionally, no more function evaluations are required to achieve this improvement in convergence order. Furthermore, the efficiency index has increased from 1.6818 to 1.7272. The proposed method is shown to be more effective than some well-known existing methods, as shown by extensive numerical testing on a variety of problems.

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A New Adaptive Eleventh-Order Memory Algorithm for Solving Nonlinear Equations

Cited by 2 publications

References 37 publications

Extension of an Eighth-Order Iterative Technique to Address Non-Linear Problems

Extension of an Eighth-Order Iterative Technique to Address Non-Linear Problems

Enhanced Ninth-Order Memory-Based Iterative Technique for Efficiently Solving Nonlinear Equations

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