Global flows for stochastic differential equations without global Lipschitz conditions

Shizan Fang; Peter Imkeller; Tusheng Zhang

doi:10.1214/009117906000000412

Global flows for stochastic differential equations without global Lipschitz conditions

Shizan Fang, Peter Imkeller, Tusheng Zhang

Research output: Contribution to journal › Article › peer-review

Abstract

We consider stochastic differential equations driven by Wiener processes. The vector fields are supposed to satisfy only local Lipschitz conditions. The Lipschitz constants of the drift vector field, valid on balls of radius R, are supposed to grow not faster than log R. while those of the diffusion vector fields are supposed to grow not faster than √log R. We regularize the stochastic differential equations by associating with them approximating ordinary differential equations obtained by discretization of the increments of the Wiener process on small intervals. By showing that the flow associated with a regularized equation converges uniformly to the solution of the stochastic differential equation, we simultaneously establish the existence of a global flow for the stochastic equation under local Lipschitz conditions. © Institute of Mathematical Statistics, 2007.

Original language	English
Pages (from-to)	180-205
Number of pages	25
Journal	Annals of Probability
Volume	35
Issue number	1
DOIs	https://doi.org/10.1214/009117906000000412
Publication status	Published - 2007

Keywords

Approximation by ordinary differential equation
Global flow
Local Lipschitz conditions
Martingale inequalities
Moment inequalities
Stochastic differential equation
Uniform convergence

Access to Document

10.1214/009117906000000412

http://projecteuclid.org/DPubS/Repository/1.0/Disseminate?handle=euclid.aop/1174324127&view=body&content-type=pdfview_1

Cite this

@article{002b933ce054415a9d8c5669242af4c2,

title = "Global flows for stochastic differential equations without global Lipschitz conditions",

abstract = "We consider stochastic differential equations driven by Wiener processes. The vector fields are supposed to satisfy only local Lipschitz conditions. The Lipschitz constants of the drift vector field, valid on balls of radius R, are supposed to grow not faster than log R. while those of the diffusion vector fields are supposed to grow not faster than √log R. We regularize the stochastic differential equations by associating with them approximating ordinary differential equations obtained by discretization of the increments of the Wiener process on small intervals. By showing that the flow associated with a regularized equation converges uniformly to the solution of the stochastic differential equation, we simultaneously establish the existence of a global flow for the stochastic equation under local Lipschitz conditions. {\textcopyright} Institute of Mathematical Statistics, 2007.",

keywords = "Approximation by ordinary differential equation, Global flow, Local Lipschitz conditions, Martingale inequalities, Moment inequalities, Stochastic differential equation, Uniform convergence",

author = "Shizan Fang and Peter Imkeller and Tusheng Zhang",

year = "2007",

doi = "10.1214/009117906000000412",

language = "English",

volume = "35",

pages = "180--205",

journal = "Annals of Probability",

publisher = "Institute of Mathematical Statistics",

number = "1",

}

TY - JOUR

T1 - Global flows for stochastic differential equations without global Lipschitz conditions

AU - Fang, Shizan

AU - Imkeller, Peter

AU - Zhang, Tusheng

PY - 2007

Y1 - 2007

N2 - We consider stochastic differential equations driven by Wiener processes. The vector fields are supposed to satisfy only local Lipschitz conditions. The Lipschitz constants of the drift vector field, valid on balls of radius R, are supposed to grow not faster than log R. while those of the diffusion vector fields are supposed to grow not faster than √log R. We regularize the stochastic differential equations by associating with them approximating ordinary differential equations obtained by discretization of the increments of the Wiener process on small intervals. By showing that the flow associated with a regularized equation converges uniformly to the solution of the stochastic differential equation, we simultaneously establish the existence of a global flow for the stochastic equation under local Lipschitz conditions. © Institute of Mathematical Statistics, 2007.

AB - We consider stochastic differential equations driven by Wiener processes. The vector fields are supposed to satisfy only local Lipschitz conditions. The Lipschitz constants of the drift vector field, valid on balls of radius R, are supposed to grow not faster than log R. while those of the diffusion vector fields are supposed to grow not faster than √log R. We regularize the stochastic differential equations by associating with them approximating ordinary differential equations obtained by discretization of the increments of the Wiener process on small intervals. By showing that the flow associated with a regularized equation converges uniformly to the solution of the stochastic differential equation, we simultaneously establish the existence of a global flow for the stochastic equation under local Lipschitz conditions. © Institute of Mathematical Statistics, 2007.

KW - Approximation by ordinary differential equation

KW - Global flow

KW - Local Lipschitz conditions

KW - Martingale inequalities

KW - Moment inequalities

KW - Stochastic differential equation

KW - Uniform convergence

U2 - 10.1214/009117906000000412

DO - 10.1214/009117906000000412

M3 - Article

VL - 35

SP - 180

EP - 205

JO - Annals of Probability

JF - Annals of Probability

IS - 1

ER -

Global flows for stochastic differential equations without global Lipschitz conditions

Abstract

Keywords

Access to Document

Fingerprint

Cite this