Xiaojian Zhou scite author profile

a b s t r a c tThis paper concentrates on iterative methods for obtaining the multiple roots of nonlinear equations. Using the computer algebra system Mathematica, we construct an iterative scheme and discuss the conditions to obtain fourth-order methods from it. All the presented fourth-order methods require one-function and two-derivative evaluation per iteration, and are optimal higher-order iterative methods for obtaining multiple roots. We present some special methods from the iterative scheme, including some known already. Numerical examples are also given to show their performance.

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Families of third and fourth order methods for multiple roots of nonlinear equations

Zhou¹,

Chen²,

Song³

2013

Applied Mathematics and Computation

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Sequential ∊-Support Vector Regression based Online Robust Parameter Design

Zhou

Jiang

Zhou

et al. 2021

Computers & Industrial Engineering

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A new family of fourth-order methods for multiple roots of nonlinear equations

Liu

Zhou

2013

NAMC

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Recently, some optimal fourth-order iterative methods for multiple roots of nonlinear equations are presented when the multiplicity m of the root is known. Different from these optimal iterative methods known already, this paper presents a new family of iterative methods using the modified Newton’s method as its first step. The new family, requiring one evaluation of the function and two evaluations of its first derivative, is of optimal order. Numerical examples are given to suggest that the new family can be competitive with other fourth-order methods and the modified Newton’s method for multiple roots.

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Xiaojian Zhou

Constructing higher-order methods for obtaining the multiple roots of nonlinear equations

Families of third and fourth order methods for multiple roots of nonlinear equations

Sequential ∊-Support Vector Regression based Online Robust Parameter Design

A new family of fourth-order methods for multiple roots of nonlinear equations

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