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Stochastic process, differentiable

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A stochastic process $ X ( t) $ such that the limit

$$ \lim\limits _ {\Delta t \rightarrow 0 } \ \frac{X ( t + \Delta t ) - X ( t) }{\Delta t } = \ X ^ \prime ( t) $$

exists; it is called the derivative of the stochastic process $ X ( t) $. One distinguishes between differentiation with probability $ 1 $ and mean-square differentiation, according to how this limit is interpreted. The condition of mean-square differentiability can be naturally expressed in terms of the correlation function

$$ B ( t _ {1} , t _ {2} ) = \ {\mathsf E} X ( t _ {1} ) X ( t _ {2} ) . $$

Namely, $ X ^ \prime ( t) $ exists if and only if the limit

$$ B ^ {\prime\prime} ( t _ {1} , t _ {2} ) = $$

$$ = \ \lim\limits _ {\begin{array}{c} \Delta t _ {1} \rightarrow 0 \\ \Delta t _ {2} \rightarrow 0 \end{array} } \frac{B ( t _ {1} + \Delta t _ {1} , t _ {2} + \Delta t _ {2} ) - B ( t _ {1} + \Delta t _ {1} , t _ {2} ) - B ( t _ {1} , t _ {2} + \Delta t _ {2} ) + B ( t _ {1} , t _ {2} ) }{\Delta t _ {1} \Delta t _ {2} } $$

exists. A stochastic process having a mean-square derivative is absolutely continuous. More precisely, for every $ t $ and with probability 1,

$$ X ( t) = X ( t _ {0} ) + \int\limits _ {t _ {0} } ^ { {t } } X ^ \prime ( s) d s ,\ t \geq t _ {0} . $$

A sufficient condition for the existence of a process equivalent to a given one with continuously differentiable trajectories is that its mean square-derivative $ X ^ \prime ( t) $ is continuous and has $ B ^ {\prime\prime} ( t _ {1} , t _ {2} ) $ as its correlation function. For Gaussian processes this condition is also necessary.

References

[1] I.I. Gikhman, A.V. Skorokhod, "Introduction to the theory of stochastic processes" , Saunders (1967) (Translated from Russian)

Comments

For additional references see Stochastic process.

How to Cite This Entry:
Stochastic process, differentiable. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Stochastic_process,_differentiable&oldid=48857
This article was adapted from an original article by Yu.A. Rozanov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article