Ryll-Nardzewski fixed-point theorem: Difference between revisions

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Line 1: In [[functional analysis]], a branch of mathematics, the '''Ryll-Nardzewski fixed-point theorem''' states that if <math>E</math> is a [[normed vector space]] and <math>K</math> is a nonempty [[Convex set\|convex]] subset of <math>E</math> ~~which~~that is [[compact space\|compact]] under the [[weak topology]], then every [[group (mathematics)\|group]] (or equivalently: every [[semigroup]]) of [[affine map\|affine]] [[isometry\|isometries]] of <math>K</math> has at least one fixed point. (Here, a ''fixed point'' of a set of maps is a point that is [[Fixed point (mathematics)\|fixed]] by each map in the set.) This theorem was announced by [[Czesław Ryll-Nardzewski]].<ref>{{cite journal\|first=C.\|last=Ryll-Nardzewski\|title=Generalized random ergodic theorems and weakly almost periodic functions\|journal=Bull. Acad. Polon. Sci. Sér. Sci. Math. ~~Astronom~~Astron. Phys.\|volume=10\|year=1962\|pages=271–275}}</ref> Later Namioka and Asplund <ref>{{cite journal\|doi=10.1090/S0002-9904-1967-11779-8\|first=I.\|last=Namioka\|author1-link= Isaac Namioka \|author2=Asplund, E. \|title=A geometric proof of Ryll-Nardzewski's fixed point theorem\|journal=Bull. Amer. Math. Soc.\|volume=73\|issue=3\|year=1967\|pages=443–445\|doi-access=free}}</ref> gave a proof based on a different approach. Ryll-Nardzewski himself gave a complete proof in the original spirit.<ref>{{cite journal\|first=C.\|last=Ryll-Nardzewski\|title=On fixed points of semi-groups of endomorphisms of linear spaces\|journal=Proc. 5th Berkeley Symp. Probab. Math. Stat\|volume=2: 1\|publisher=Univ. California Press\|year=1967\|pages=55–61}}</ref> ==Applications== Line 9: * [[Fixed-point theorem]]s * [[Fixed-point theorems in infinite-dimensional spaces]] * [[Markov-Kakutani fixed-point theorem]] - abelian semigroup of continuous affine self-maps on compact convex set in a topological vector space has a fixed point ==References== <references /> * Andrzej Granas and [[James Dugundji]], ''Fixed Point Theory'' (2003) Springer-Verlag, New York, ~~ISBN~~ {{isbn\|0-387-00173-5}}. * [http://www.math.harvard.edu/~lurie/261ynotes/lecture26.pdf A proof written by J. Lurie] {{Functional analysis}} [[Category:Fixed-point theorems]]