Fixed Point Results for Fractal Generation of Complex Polynomials Involving Sine Function via Non-Standard Iterations

Fixed Point Results for Fractal Generation of Complex Polynomials Involving Sine Function via Non-Standard Iterations

Due to the uniqueness and self-similarity, fractals became most attractive and charming research field. Nowadays researchers use different techniques to generate beautiful fractals for a complex polynomial z<sup>n</sup> + c. This article demonstrates some fixed point results for a sine f...

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Bibliographic Details
Main Authors: Hengxiao Qi, Muhammad Tanveer, Waqas Nazeer, Yuming Chu
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
Fixed points
sine function
fractals
Online Access:https://ieeexplore.ieee.org/document/9172074/
Description
Summary:Due to the uniqueness and self-similarity, fractals became most attractive and charming research field. Nowadays researchers use different techniques to generate beautiful fractals for a complex polynomial z<sup>n</sup> + c. This article demonstrates some fixed point results for a sine function (i.e. sin(z<sup>n</sup>) + c) via non-standard iterations (i.e. Mann, Ishikawa and Noor iterations etc.). Since each two steps iteration (i.e. Ishikawa and S iterations) or each three steps iteration (i.e. Noor, CR and SP iterations) have same escape radii for any complex polynomial, so we use these results for S, CR and SP iterations also to apply for the generation of Julia and Mandelbrot sets with sin(z<sup>n</sup>) + c. At some fixed input parameters, we observe the engrossing behavior of Julia and Mandelbrot sets for different n.
ISSN:2169-3536

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