1. The averaging principle of stochastic functional partial differential equations with H\'older coefficients and infinite delay
- Author
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Lu, Shuaishuai, Yang, Xue, and Li, Yong
- Subjects
Mathematics - Probability - Abstract
In this paper, we establish the averaging principle for stochastic functional partial differential equations (SFPDEs) characterized by H\"older coefficients and infinite delay. Firstly, we rigorously establish the existence and uniqueness of strong solutions for a specific class of finite-dimensional systems characterized by H\"older continuous coefficients and infinite delay. We extend these results to their infinite-dimensional counterparts using the variational approach and Galerkin projection technique. Subsequently, we establish the averaging principle (the first Bogolyubov theorem) for SFPDEs with infinite delay, subject to conditions of linear growth and H\"older continuity. This is achieved through classical Khasminskii time discretization and reductio ad absurdum, illustrating the convergence of solutions from the original Cauchy problem to those of the averaged equation across the finite interval [0, T]. To illustrate our findings, we present two applications: stochastic generalized porous media equations and stochastic reaction-diffusion equations with H\"older coefficients.
- Published
- 2024