Stochastic differential

A random interval function defined by the formula

for every process in the class of semi-martingales , with respect to a stochastic basis . In the family of stochastic differentials one introduces addition , multiplication by a process and the product operation according to the following formulas:

;

(a stochastic integral, being a locally bounded predictable process which is adapted to the filtration );

, where and are the left-continuous versions of and .

It then turns out that

where is an arbitrary decomposition of the interval , l.i.p. is the limit in probability, and .

In stochastic analysis, the principle of "differentiation" of random functions, or Itô formula, is of importance: If and the function , then

and

(1)

where is the partial derivative with respect to the -th coordinate. In particular, it can be inferred from (1) that if , then

(2)

where is the continuous martingale part of , .

Formula (2) can be given the following form:

where is the quadratic variation of .

References

Comments

The product is more often written as , where the so-called "square bracket" is the process with finite variation such that . When , one obtains the quadratic variation used at the end of the main article. Actually, it is a probabilistic quadratic variation: when is a standard Brownian motion, is the Lebesgue measure, but the true quadratic variation of the paths is almost surely infinite. See also Semi-martingale; Stochastic integral; Stochastic differential equation.

For the study of continuous-path processes evolving on non-flat manifolds the Itô stochastic differential is inconvenient, because the Itô formula (2) is incompatible with the ordinary rules of calculus relating different coordinate systems. A coordinate-free description can be obtained using the Stratonovich differential; see [a1], [a2], Chapt. 5, [a3], and Stratonovich integral.

References