12,668 research outputs found
Local convergence of generalized Mann iteration
The local convergence of generalized Mann iteration is investigated in the setting of a real Hilbert space. As application, we obtain an algorithm for estimating the local radius of convergence for some known iterative methods. Numerical experiments are presented showing the performances of the proposed algorithm. For a particular case of the Ezquerro-Hernandez method (Ezquerro and Hernandez, J. Complex., 25:343-361: 2009), the proposed procedure gives radii which are very close to or even identical with the best possible ones
Convergence Rates with Inexact Non-expansive Operators
In this paper, we present a convergence rate analysis for the inexact
Krasnosel'skii-Mann iteration built from nonexpansive operators. Our results
include two main parts: we first establish global pointwise and ergodic
iteration-complexity bounds, and then, under a metric subregularity assumption,
we establish local linear convergence for the distance of the iterates to the
set of fixed points. The obtained iteration-complexity result can be applied to
analyze the convergence rate of various monotone operator splitting methods in
the literature, including the Forward-Backward, the Generalized
Forward-Backward, Douglas-Rachford, alternating direction method of multipliers
(ADMM) and Primal-Dual splitting methods. For these methods, we also develop
easily verifiable termination criteria for finding an approximate solution,
which can be seen as a generalization of the termination criterion for the
classical gradient descent method. We finally develop a parallel analysis for
the non-stationary Krasnosel'skii-Mann iteration. The usefulness of our results
is illustrated by applying them to a large class of structured monotone
inclusion and convex optimization problems. Experiments on some large scale
inverse problems in signal and image processing problems are shown.Comment: This is an extended version of the work presented in
http://arxiv.org/abs/1310.6636, and is accepted by the Mathematical
Programmin
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