Construction of fourth-order optimal families of iterative methods and their dynamics

作者:

Highlights:

摘要

In this paper, we propose a general class of fourth-order optimal multi-point methods without memory for obtaining simple roots. This class requires only three functional evaluations (viz. two evaluations of function f(xn), f(yn) and one of its first-order derivative f ′(xn)) per iteration. Further, we show that the well-known Ostrowski’s method and King’s family of fourth-order procedures are special cases of our proposed schemes. One of the new particular subclasses is a biparametric family of iterative methods. By using complex dynamics tools, its stability is analyzed, showing stable members of the family. Further on, one of the parameters is fixed and the stability of the resulting class is studied. On the other hand, the accuracy and validity of new schemes is tested by a number of numerical examples by comparing them with recent and classical optimal fourth-order methods available in the literature. It is found that they are very useful in high precision computations.

论文关键词:Nonlinear equations,Iterative methods,Optimal order of convergence,Complex dynamics,Parameter plane,Basin of attraction

论文评审过程:Received 12 June 2015, Revised 20 August 2015, Accepted 27 August 2015, Available online 19 September 2015, Version of Record 19 September 2015.

论文官网地址:https://doi.org/10.1016/j.amc.2015.08.113