Approximating a geometric fractional Brownian motion and related processes via discrete Wick calculus
Copyright policy )Approximating a geometric fractional Brownian motion and related processes via discrete Wick calculus
We approximate the solution of some linear systems of SDEs driven by a fractional Brownian motion $B^H$ with Hurst parameter $H\in(\frac{1}{2},1)$ in the Wick--It�� sense, including a geometric fractional Brownian motion. To this end, we apply a Donsker-type approximation of the fractional Brownian motion by disturbed binary random walks due to Sottinen. Moreover, we replace the rather complicated Wick products by their discrete counterpart, acting on the binary variables, in the corresponding systems of Wick difference equations. As the solutions of the SDEs admit series representations in terms of Wick powers, a key to the proof of our Euler scheme is an approximation of the Hermite recursion formula for the Wick powers of $B^H$.
Published in at http://dx.doi.org/10.3150/09-BEJ223 the Bernoulli (http://isi.cbs.nl/bernoulli/) by the International Statistical Institute/Bernoulli Society (http://isi.cbs.nl/BS/bshome.htm)
- Saarland University Germany
- University of Mannheim Germany
Stochastic calculus of variations and the Malliavin calculus, fractional Brownian motion, Fractional processes, including fractional Brownian motion, Wick-Itô integral, Mathematics - Statistics Theory, Statistics Theory (math.ST), White noise theory, discrete Wick calculus, 510, Wick–Itô integral, FOS: Mathematics, weak convergence, Convergence of probability measures
Stochastic calculus of variations and the Malliavin calculus, fractional Brownian motion, Fractional processes, including fractional Brownian motion, Wick-Itô integral, Mathematics - Statistics Theory, Statistics Theory (math.ST), White noise theory, discrete Wick calculus, 510, Wick–Itô integral, FOS: Mathematics, weak convergence, Convergence of probability measures
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