Fixed-point theorems in infinite-dimensional spaces: Difference between revisions

Browse history interactively

← Previous edit

Content deleted Content added

VisualWikitext

Revision as of 10:48, 21 June 2012 edit Mathsci (talk \| contribs) Autopatrolled, Extended confirmed users, Pending changes reviewers 66,107 edits No edit summary ← Previous edit		Latest revision as of 18:12, 13 August 2025 edit undo Dexxor (talk \| contribs) Extended confirmed users 2,729 edits m →External links: fix dead link
(24 intermediate revisions by 18 users not shown)
Line 1: {{Short description\|Theorems generalizing the Brouwer fixed-point theorem}} In [[mathematics]], a number of '''[[fixed point (mathematics)\|fixed-point]] theorems in infinite-dimensional spaces''' generalise the [[Brouwer fixed-point theorem]]. They have applications, for example, to the proof of [[existence theorem]]s for [[partial differential equation]]s. The first result in the field was the '''[[Schauder fixed-point theorem]]''', proved in 1930 by [[Juliusz Schauder]] (a previous result in a different vein, the [[Banach fixed-point theorem]] for [[Contraction mapping\|contraction mappings]] in complete [[metric spaces]] was proved in 1922). Quite a number of further results followed. One way in which fixed-point theorems of this kind have had a larger influence on mathematics as a whole has been that one approach is to try to carry over methods of [[algebraic topology]], first proved for finite [[simplicial complex]]es, to spaces of infinite dimension. For example, the research of [[Jean Leray]] who founded [[sheaf theory]] came out of efforts to extend Schauder's work. ~~The~~ <blockquote>'''[[Schauder fixed-point theorem]]:''' ~~states, in one version, that if~~Let ''C'' isbe a [[nonempty]] [[Closed set\|closed]] [[Convex set\|convex]] subset of a [[Banach space]] ''V''. ~~and~~If ''f'' ~~is a [[continuous function\|continuous map]] from~~: ''C'' to→ ''C'' ~~whose~~is ~~image~~[[continuous isfunction\|continuous]] with a [[compact set\|compact]] image, then ''f'' has a fixed point.</blockquote> ~~The~~ <blockquote>'''Tikhonov (Tychonoff) fixed -point theorem:''' isLet ~~applied~~''V'' tobe ~~any~~a [[locally convex topological vector space]] ~~''V''~~. ~~It states that for~~For any ~~non-empty~~nonempty compact convex set ''X'' in ''V'', any continuous function ''f'' : ''X'' → ''X'' has a fixed point.</blockquote> <blockquote>'''Browder fixed-point theorem:''' Let ''K'' be a nonempty closed bounded convex set in a [[uniformly convex Banach space]]. Then any non-expansive function ''f'' : ''K'' → ''K'' has a fixed point. (A function <math>f</math> is called non-expansive if <math>\\|f(x)-f(y)\\|\leq \\|x-y\\| </math> for each <math>x</math> and <math>y</math>.)</blockquote> ~~:''&fnof;'':''X'' → ''X'',~~ Other results include the [[Markov–Kakutani fixed-point theorem]] (1936-1938) and the [[Ryll-Nardzewski fixed-point theorem]] (1967) for continuous affine self-mappings of compact convex sets, as well as the [[Earle–Hamilton fixed-point theorem]] (1968) for holomorphic self-mappings of open domains. Also, Aniki & Rauf (2019) presented some interesting results on the stability of partially ordered metric spaces for coupled fixed point iteration procedures for mixed monotone mappings. ~~has a fixed point.~~ :<blockquote>'''[[Kakutani fixed-point theorem]]:''' Every correspondence that maps a compact convex subset of a locally convex space into itself with a closed graph and convex nonempty images has a fixed point.''</blockquote>▼ ~~Other results are the [[Markov–Kakutani fixed-point theorem]] (1936-1938), the [[Ryll-Nardzewski fixed point theorem]] (1967) and the [[Earle–Hamilton fixed-point theorem]] (1968).~~ ~~[[Kakutani fixed point theorem\|Kakutani's fixed-point theorem]] states that:~~ ▲: ''Every correspondence that maps a compact convex subset of a locally convex space into itself with a closed graph and convex nonempty images has a fixed point.'' ==See also== * [[Topological degree theory]] ==References== * Vasile I. Istratescu, ''Fixed Point Theory, An Introduction'', D.Reidel, Holland (1981). ~~ISBN~~ {{isbn\|90-277-1224-7}}. * Andrzej Granas and [[James Dugundji]], ''Fixed Point Theory'' (2003) Springer-Verlag, New York, ~~ISBN~~ {{isbn\|0-387-00173-5}}. * William A. Kirk and [[Brailey Sims]], ''Handbook of Metric Fixed Point Theory'' (2001), Kluwer Academic, London ~~ISBN~~ {{isbn\|0-7923-7073-2}}. * Samuel A. Aniki and Kamilu Rauf, ''Some stability results in partially ordered metric spaces for coupled fixed point iteration of procedures for mixed monotone mappings'' (2019), Islamic University Multidisciplinary Journal, 6(3), 175-186 https://www.iuiu.ac.ug/journaladmin/iumj/ArticleFiles/49305.pdf ==External links== *~~[http://planetmath.org/encyclopedia/TychonoffFixedPointTheorem.html~~ {{PlanetMath ~~article on the~~ \|TychonoffFixedPointTheorem\|Tychonoff Fixed Point Theorem]}} [[Category:Fixed-point theorems]] ~~[[Category:Functional analysis]]~~ ~~[[Category:Mathematical and quantitative methods (economics)]]~~ ~~[[Category:Theorems in topology]]~~ [[fr:Théorème du point fixe de Schauder]]