Strong convergence of an inertial forward-backward splitting method for accretive operators in real Banach space



	Strong convergence of an inertial forward-backward splitting method for accretive operators in real Banach space


	Fixed Point Theory, Volume 21, No. 2, 2020, 397-412, July 1st, 2020 DOI: 10.24193/fpt-ro.2020.2.28 Authors: H.A. Abass, C. Izuchukwu, O.T. Mewomo and Q.L. Dong Abstract: The main purpose of this paper is to introduce a modified inertial forward-backward splitting method and prove its strong convergence to a zero of the sum of two accretive operators in real uniformly convex Banach space which is also uniformly smooth. We then apply our results to solve variational inequality problem and convex minimization problem. We also give a numerical example of our algorithm to show that it converges faster than the un-accelerated modified forward-backward algorithm. Key Words and Phrases: Monotone inclusion problem, inertial iterative algorithm, Banach space, forward-backward splitting method, inertial extrapolation. 2010 Mathematics Subject Classification: 47H06, 47H09, 47J05, 47H10, 47J25. Published on-line: July 1st, 2020. Abstract pdf Fulltext pdf Back to volume's table of contents