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Line 1: In [[stochastic analysis]], a part of the mathematical theory of [[probability]], a '''predictable process''' is a [[stochastic process]] ~~which the~~whose value is knowable at a prior time. The predictable processes form the smallest class~~{{clarify\|reason=of what?\|date=October 2011}}~~ that is closed under taking limits of sequences and contains all [[Adapted process\|adapted]] left -continuous processes.{{clarify~~\|reason=explain meaning of this phrase~~\|date=October 2011}}.▼ ~~At the moment i have no time to correct the definition but i'm sure it is wrong~~ ▲In [[stochastic analysis]], a part of the mathematical theory of [[probability]], a '''predictable process''' is a [[stochastic process]] which the value is knowable at a prior time. The predictable processes form the smallest class{{clarify\|reason=of what?\|date=October 2011}} that is closed under taking limits of sequences and contains all [[Adapted process\|adapted]] left continuous processes{{clarify\|reason=explain meaning of this phrase\|date=October 2011}}. == Mathematical definition == === Discrete-time process === Given a [[filtered probability space]] <math>(\Omega,\mathcal{F},(\mathcal{F}_n)_{n \in \mathbb{N}},\mathbb{P})</math>, then a stochastic process <math>(X_n)_{n \in \mathbb{N}}</math> is ''predictable'' if <math>X_{n+1}</math> is [[~~measureable~~measurable function\|~~measureable~~measurable]] with respect to the [[sigma algebra\|σ-algebra]] <math>\mathcal{F}_n</math> for each ''n''.<ref name="Zanten">{{cite web\|title=An Introduction to Stochastic Processes in Continuous Time\|first1=Harry\|last1=van Zanten\|date=November 8, 2004\|url=http://www.cs.vu.nl/~rmeester/onderwijs/stochastic_processes/sp_new.pdf\|format=pdf\|~~accessdate~~access-date=October 14, 2011 \|archive-url=https://web.archive.org/web/20120406084950/http://www.cs.vu.nl/~rmeester/onderwijs/stochastic_processes/sp_new.pdf \|archive-date=April 6, 2012 \|url-status=dead}}</ref> === Continuous-time process === Given a filtered probability space <math>(\Omega,\mathcal{F},(\mathcal{F}_t)_{t \geq 0},\mathbb{P})</math>, then a [[continuous-time stochastic process]] <math>(X_t)_{t \geq 0}</math> is ''predictable'' if <math>X_X</math>, considered as a mapping from <math>\Omega \times \mathbb{tR}_{+} </math>, is ~~measureable~~measurable with respect to the σ-algebra ~~<math>\mathcal{F}_{t^-}</math>~~generated ~~for~~by ~~each~~all ~~time~~left-continuous ~~''t''~~adapted processes.<ref>{{cite web\|title=Predictable processes: properties \|url=http://www.math.ku.dk/~jesper/teaching/b108/slides38.pdf \|format=pdf \|~~accessdate~~access-date=October 15, 2011 \|url-status=dead \|archive-url=https://web.archive.org/web/20120331074812/http://www.math.ku.dk/~jesper/teaching/b108/slides38.pdf \|archive-date=March 31, 2012 }}</ref> This [[σ-algebra]] is also called the '''predictable σ-algebra'''. == Examples == * Every [[deterministic system\|deterministic process]] is a predictable process.{{cncitation needed\|date=October 2011}} * Every continuous-time adapted process that is [[left continuous]] is a predictable process.{{cnCitation needed\|reason=A Wiener process has continuous paths and is not predictable.\|date=~~October~~May ~~2011~~2020}} == See also == * [[Adapted process]] * [[Martingale (probability theory)\|Martingale]] == References == {{Reflist}} {{Stochastic processes}} [[Category:Stochastic processes]] ~~{{probability-stub}}~~