Numerical approximations of stochastic differential equations with non-globally Lipschitz continuous coefficients / Martin Hutzenthaler and Arnulf Jentzen.
Material type:
TextSeries: Memoirs of the American Mathematical Society ; v 236, no 1112.Publication details: Providence : American Mathematical Society, 2015.Description: v, 99 p. : 26 cmISBN: - 9781470409845 (alk. paper)
- 510 23 Am512
| Item type | Current library | Call number | Status | Date due | Barcode | Item holds | |
|---|---|---|---|---|---|---|---|
| Books | ISI Library, Kolkata | 510 Am512 (Browse shelf(Opens below)) | Available | 136679 |
Includes bibliographical references.
1. Introduction --
2. Integrability properties of approximation processes for SDEs --
3. Convergence properties of approximation processes for SDEs --
4. Examples of SDEs --
Bibliography.
Many stochastic differential equations (SDEs) in the literature have a super linearly growing nonlinearity in their drift or diffusion coefficient. Unfortunately, moments of the computationally efficient Euler Maruyama approximation method diverge for these SDEs in finite time. This article develops a general theory based on rare events for studying integrability properties such as moment bounds for discrete time stochastic processes. Using this approach, we establish moment bounds for fully and partially drift implicit Euler methods and for a class of new explicit approximation methods which require only a few more arithmetical operations than the Euler-Maruyama method. These moment bounds are then used to prove strong convergence of the proposed schemes. Finally, we illustrate our results for several SDEs from finance, physics, biology and chemistry.
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