Kolmogorov continuity theorem: Difference between revisions

Browse history interactively

← Previous edit

Content deleted Content added

VisualWikitext

Revision as of 00:52, 9 August 2018 edit 117.154.215.245 (talk) →Statement of the theorem ← Previous edit		Latest revision as of 20:59, 14 April 2025 edit undo JJMC89 bot III (talk \| contribs) Bots, Administrators 4,343,009 edits m Moving Category:Theorems regarding stochastic processes to Category:Theorems about stochastic processes per Wikipedia:Categories for discussion/Speedy
(6 intermediate revisions by 6 users not shown)
Line 1: {{Short description\|Mathematical theorem}} In [[mathematics]], the '''Kolmogorov continuity theorem''' is a [[theorem]] that guarantees that a [[stochastic process]] that satisfies certain constraints on the [[moment (mathematics)\|moments]] of its increments will be continuous (or, more precisely, have a "continuous version"). It is credited to the [[Soviet Union\|Soviet]] [[mathematician]] [[Andrey Kolmogorov\|Andrey Nikolaevich Kolmogorov]]. ==Statement ~~of the theorem~~== Let <math>(S,d)</math> be some complete separable metric space, and let <math>X :\colon [0, + \infty) \times \Omega \to S</math> be a stochastic process. Suppose that for all times <math>T > 0</math>, there exist positive constants <math>\alpha, \beta, K</math> such that :<math>\mathbb{E} [d(X_t, X_s)^\alpha] \leq K \| t - s \|^{1 + \beta}</math> for all <math>0 \leq s, t \leq T</math>. Then there exists a modification <math>\tilde{X}</math> of <math>X</math> that is a continuous process, i.e. a process <math>\tilde{X} :\colon [0, + \infty) \times \Omega \to S</math> such that * <math>\tilde{X}</math> is [[sample-continuous process\|sample-continuous]]; Line 13 ⟶ 14: Furthermore, the paths of <math>\tilde{X}</math> are locally [[Hölder continuity\|<math>\gamma</math>-Hölder-continuous]] for every <math>0<\gamma<\tfrac\beta\alpha</math>. ~~for the two~~ ==Example== In the case of [[Brownian motion]] on <math>\mathbb{R}^n</math>, the choice of constants <math>\alpha = 4</math>, <math>\beta = 1</math>, <math>K = n (n + 2)</math> will work in the Kolmogorov continuity theorem. Moreover, for any positive integer <math>m</math>, the constants <math>\alpha = 2m</math>, <math>\beta = m-1</math> will work, for some positive value of <math>K</math> that depends on <math>n</math> and <math>m</math>. ==See also== * [[Kolmogorov extension theorem]] ==References== * {{cite book \| author= Daniel W. Stroock, S. R. Srinivasa Varadhan \| authorlink=Daniel W. Stroock, S. R. Srinivasa Varadhan \| title=Multidimensional Diffusion Processes \| publisher=Springer, Berlin \| year=1997 \| isbn=978-3-662-22201-0}} p. 51 [[Category:Theorems ~~regarding~~about stochastic processes]]