Preprint No.
A-99-08
Norbert Hofmann, Thomas Müller-Gronbach, Klaus Ritter
Step-size Control for Approximation of Systems of Stochastic Differential Equations with Additive Noise
Abstract:
We analyze the pathwise approximation for systems of
stochastic differential equations.
The pathwise distance between the solution
and its approximation is measured globally on the unit interval
in the $L_\infty$-norm, and we study the expectation of this distance.
For systems with additive noise we
obtain sharp lower and upper bounds
for the minimal error in the class of arbitrary methods which
use discrete observations of a Brownian path. The optimal
order is achieved by an Euler scheme with adaptive step-size
control. We illustrate the superiority of the adaptive method
compared to equidistant discretization by a simulation experiment.
Keywords: systems of stochastic differential equations, pathwise approximation, adaption, step-size control, asymptotic optimality
Mathematics Subject Classification (MSC91): 65U05 Numerical methods in probability and statistics
, 60H10 Stochastic ordinary differential equations
Language: ENG
Available: Pr-A-99-08.ps
Contact: Müller-Gronbach, Thomas; Freie Universität Berlin, Fachbereich Mathematik und Informatik, Arnimallee 2-6, D-14195 Berlin, Germany (gronbach@math.fu-berlin.de)
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