Foundations (Sep 2022)

Semi-Local Convergence of a Seventh Order Method with One Parameter for Solving Non-Linear Equations

  • Christopher I. Argyros,
  • Ioannis K. Argyros,
  • Samundra Regmi,
  • Jinny Ann John,
  • Jayakumar Jayaraman

DOI
https://doi.org/10.3390/foundations2040056
Journal volume & issue
Vol. 2, no. 4
pp. 827 – 838

Abstract

Read online

The semi-local convergence is presented for a one parameter seventh order method to obtain solutions of Banach space valued nonlinear models. Existing works utilized hypotheses up to the eighth derivative to prove the local convergence. But these high order derivatives are not on the method and they may not exist. Hence, the earlier results can only apply to solve equations containing operators that are at least eight times differentiable although this method may converge. That is why, we only apply the first derivative in our convergence result. Therefore, the results on calculable error estimates, convergence radius and uniqueness region for the solution are derived in contrast to the earlier proposals dealing with the less challenging local convergence case. Hence, we enlarge the applicability of these methods. The methodology used does not depend on the method and it is very general. Therefore, it can be used to extend other methods in an analogous way. Finally, some numerical tests are performed at the end of the text, where the convergence conditions are fulfilled.

Keywords