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Rates of convergence for iterative solutions of equations involving set-valued accretive operators

This paper studies proofs of strong convergence of various iterative algorithms for computing the unique zeros of set-valued accretive operators that also satisfy some weak form of uniform accretivity at zero. More precisely, we extract explicit rates of convergence from these proofs which depend on a modulus of uniform accretivity at zero, a concept first introduced by A. Koutsoukou-Argyraki and the first author in 2015. Our highly modular approach, which is inspired by the logic-based proof mining paradigm, also establishes that a number of seemingly unrelated convergence proofs in the literature are actually instances of a common pattern.

preprint2020arXivOpen access
Ulrich KohlenbachThomas Powell
math.LOmath.OCmath.FA
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Ulrich KohlenbachThomas Powell

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