The aim of this note is to propose a novel numerical scheme for drift-less one dimensional stochastic differential equations of Itˆo’s type driven by standard Brownian motion. Our approximation method is equivalent to the well known Milstein scheme as long as the rate of convergence is concerned, i.e. it is strongly convergent with order one, but has the additional desirable property of being exact for linear diffusion coefficients. Our approach is inspired by Wick-type Wong-Zakai arguments in the sense that we only smooth the white noise through polygonal approximation of the Brownian motion while keep the equation in differential form. A first order Taylor expansion of the diffusion coefficient allows us to solve the resulting equation explicitly and hence to provide an implementable approximation scheme.
Lanconelli, A., Percin, B.T. (In stampa/Attività in corso). A new numerical scheme for Ito stochastic differential equations based on Wick-type Wong-Zakai arguments. INFINITE DIMENSIONAL ANALYSIS QUANTUM PROBABILITY AND RELATED TOPICS, online first, 1-8 [10.1142/s021902572550002x].
A new numerical scheme for Ito stochastic differential equations based on Wick-type Wong-Zakai arguments
Lanconelli, Alberto
Primo
Investigation
;Percin, Berk TanSecondo
Investigation
In corso di stampa
Abstract
The aim of this note is to propose a novel numerical scheme for drift-less one dimensional stochastic differential equations of Itˆo’s type driven by standard Brownian motion. Our approximation method is equivalent to the well known Milstein scheme as long as the rate of convergence is concerned, i.e. it is strongly convergent with order one, but has the additional desirable property of being exact for linear diffusion coefficients. Our approach is inspired by Wick-type Wong-Zakai arguments in the sense that we only smooth the white noise through polygonal approximation of the Brownian motion while keep the equation in differential form. A first order Taylor expansion of the diffusion coefficient allows us to solve the resulting equation explicitly and hence to provide an implementable approximation scheme.| File | Dimensione | Formato | |
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wick_numerical_SDE_revised.pdf
embargo fino al 28/03/2026
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