arXiv:2207.12108 Abstract | arXiv Analytics

arXiv:2207.12108 [math.PR]Abstract References Reviews Resources

Strong and weak convergence for averaging principle of DDSDE with singular drift

Published 2022-07-25, updated 2022-10-15Version 2

In this paper, we study the averaging principle for distribution dependent stochastic differential equations with drift in localized $L^p$ space. Using Zvonkin's transformation and estimates for solutions to Kolmogorov equations, we prove that the solutions of the original system strongly and weakly converge to the solution of the averaged system as the time scale $\eps$ goes to zero. Moreover, we obtain rates of the strong and weak convergence that depend on $p$ respectively.

Comments: 41 pages

Categories: math.PR

Keywords: weak convergence, averaging principle, singular drift, distribution dependent stochastic differential equations, zvonkins transformation

Related articles: Most relevant | Search more

arXiv:1907.09256 [math.PR] (Published 2019-07-22)

Strong and weak convergence in the averaging principle for SDEs with Hölder coefficients

Michael Röckner, Xiaobin Sun, Longjie Xie

arXiv:2012.13656 [math.PR] (Published 2020-12-26)

Distribution Dependent Stochastic Differential Equations

Xing Huang, Panpan Ren, Feng-Yu Wang

arXiv:1701.07983 [math.PR] (Published 2017-01-27)

Weak order in averaging principle for stochastic differential equations with jumps