On projection algorithms for solving convex feasibility problems

Bauschke, Heinz H.; Borwein, Jonathan M.

Title: On projection algorithms for solving convex feasibility problems
Creator: Bauschke, Heinz H.; Borwein, Jonathan M.
Relation: SIAM Review Vol. 38, Issue 3, p. 367-426
Publisher Link: http://dx.doi.org/10.1137/S0036144593251710
Publisher: Society for Industrial and Applied Mathematics (SIAM)
Resource Type: journal article
Date: 1996
Description: Due to their extraordinary utility and broad applicability in many areas of classical mathematics and modern physical sciences (most notably, computerized tomography), algorithms for solving convex feasibility problems continue to receive great attention. To unify, generalize, and review some of these algorithms, a very broad and flexible framework is investigated. Several crucial new concepts which allow a systematic discussion of questions on behaviour in general Hilbert spaces and on the quality of convergence are brought out. Numerous examples are given.
Subject: angle between two subspaces; averaged mapping; firmly nonexpansive mapping; Hilbert space; image recovery; iterative method; Kaczmarz’s method; linear convergence; linear feasibility problem; linear inequalities; nonexpansive mapping; orthogonal projection; Cimmino’s method; projection algorithm; projection method; Slater point; subdifferential; subgradient; subgradient algorithm; successive projections; computerized tomography; convex feasibility problem; convex function; convex inequalities; convex programming; convex set; Fejer monotone sequence
Identifier: http://hdl.handle.net/1959.13/940478
Identifier: uon:13019
Identifier: ISSN:0036-1445
Language: eng
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