An Optimal Fourth Order Derivative-Free Numerical Algorithm for Multiple Roots

Kumar, Sunil; Kumar, Deepak; Sharma, Janak Raj; Cesarano, Clemente; Agarwal, Praveen; Chu, Yu‐Ming

doi:10.3390/sym12061038

Cited by 39 publications

(21 citation statements)

References 23 publications

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“…There exist in the literature (see, for example, Reference [1][2][3][4][5][6][7][8]) numerous iterative methods without memory, involving or not derivatives, designed to estimate the multiple roots of a nonlinear equation f (x) = 0, but most of them need the knowledge of the multiplicity m of these roots.…”

Section: Introductionmentioning

confidence: 99%

Memorizing Schröder’s Method as an Efficient Strategy for Estimating Roots of Unknown Multiplicity

2021

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In this paper, we propose, to the best of our knowledge, the first iterative scheme with memory for finding roots whose multiplicity is unknown existing in the literature. It improves the efficiency of a similar procedure without memory due to Schröder and can be considered as a seed to generate higher order methods with similar characteristics. Once its order of convergence is studied, its stability is analyzed showing its good properties, and it is compared numerically in terms of their basins of attraction with similar schemes without memory for finding multiple roots.

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Section: Introductionmentioning

confidence: 99%

Memorizing Schröder’s Method as an Efficient Strategy for Estimating Roots of Unknown Multiplicity

2021

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“…The major drawback of these schemes is the computation of the first-order derivative at each step, which consumes much time. To reduce this complexity, researchers [17][18][19][20][21][22] have worked on derivative-free schemes of multiple roots of scalar equations with the concept of the divided difference introduced by Traub-Steffensen [4]:…”

Section: Introductionmentioning

confidence: 99%

“…In 2020, Kumar et al [18] and Sharma et al [19][20][21] constructed derivative-free methods of second-order, fourth-order, and eighth-order convergence, respectively. Recently, Behl et al [6] proposed an optimal derivative-free Chebyshev-Halley family for multiple roots of a nonlinear equation.…”

Section: Introductionmentioning

confidence: 99%

Derivative-Free King’s Scheme for Multiple Zeros of Nonlinear Functions

et al. 2021

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There is no doubt that the fourth-order King’s family is one of the important ones among its counterparts. However, it has two major problems: the first one is the calculation of the first-order derivative; secondly, it has a linear order of convergence in the case of multiple roots. In order to improve these complications, we suggested a new King’s family of iterative methods. The main features of our scheme are the optimal convergence order, being free from derivatives, and working for multiple roots (m≥2). In addition, we proposed a main theorem that illustrated the fourth order of convergence. It also satisfied the optimal Kung–Traub conjecture of iterative methods without memory. We compared our scheme with the latest iterative methods of the same order of convergence on several real-life problems. In accordance with the computational results, we concluded that our method showed superior behavior compared to the existing methods.

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“…Ahmad et al [2] found the numerical solution of three-term time-fractional-order multi-dimensional diffusion equations by using an efficient local meshless method. Kumar et al [30] worked on fourth-order derivativefree iterative methods for finding a multiple root. Authors also shows the performance of the new technique is a good competitor to existing optimal fourth-order Newton-like techniques.…”

Section: Introductionmentioning

confidence: 99%

On semilocal convergence of three-step Kurchatov method under weak condition

Kumar

2021

Arab. J. Math.

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The purpose of this paper to establish the semilocal convergence analysis of three-step Kurchatov method under weaker conditions in Banach spaces. We construct the recurrence relations under the assumption that involved first-order divided difference operators satisfy the $$\omega $$ ω condition. Theorems are given for the existence-uniqueness balls enclosing the unique solution. The application of the iterative method is shown by solving nonlinear system of equations and nonlinear Hammerstein-type integral equations. It illustrates the theoretical development of this study.

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An Optimal Fourth Order Derivative-Free Numerical Algorithm for Multiple Roots

Cited by 39 publications

References 23 publications

Memorizing Schröder’s Method as an Efficient Strategy for Estimating Roots of Unknown Multiplicity

Memorizing Schröder’s Method as an Efficient Strategy for Estimating Roots of Unknown Multiplicity

Derivative-Free King’s Scheme for Multiple Zeros of Nonlinear Functions

On semilocal convergence of three-step Kurchatov method under weak condition

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