Moderate Deviations for Two-Time Scale Systems with Mixed Fractional Brownian Motion

Xiaoyu Yang; Yuzuru Inahama; Yong Xu

doi:10.1007/s00245-024-10159-w

Moderate Deviations for Two-Time Scale Systems with Mixed Fractional Brownian Motion

Xiaoyu Yang, Yuzuru Inahama, Yong Xu

School of Mathematics and Statistics

Kyushu University

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

1 Scopus citations

Abstract

This work focuses on moderate deviations for two-time scale systems with mixed fractional Brownian motion. Our proof uses the weak convergence method which is based on the variational representation formula for mixed fractional Brownian motion. Throughout this paper, the Hurst parameter of fractional Brownian motion is larger than 1/2 and the integral along the fractional Brownian motion is understood as the generalized Riemann-Stieltjes integral. First, we consider single-time scale systems with fractional Brownian motion. The key of our proof is showing the weak convergence of the controlled system. Next, we extend our method to show moderate deviations for two-time scale systems. To this goal, we combine the Khasminskii-type averaging principle and the weak convergence approach.

Original language	English
Article number	18
Journal	Applied Mathematics and Optimization
Volume	90
Issue number	1
DOIs	https://doi.org/10.1007/s00245-024-10159-w
State	Published - Aug 2024

Keywords

60F10
60G15
60H10
Fractional Brownian motion
Moderate deviation
Two-time scale system
Weak convergence method

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10.1007/s00245-024-10159-w

Cite this

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abstract = "This work focuses on moderate deviations for two-time scale systems with mixed fractional Brownian motion. Our proof uses the weak convergence method which is based on the variational representation formula for mixed fractional Brownian motion. Throughout this paper, the Hurst parameter of fractional Brownian motion is larger than 1/2 and the integral along the fractional Brownian motion is understood as the generalized Riemann-Stieltjes integral. First, we consider single-time scale systems with fractional Brownian motion. The key of our proof is showing the weak convergence of the controlled system. Next, we extend our method to show moderate deviations for two-time scale systems. To this goal, we combine the Khasminskii-type averaging principle and the weak convergence approach.",

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AU - Yang, Xiaoyu

AU - Inahama, Yuzuru

AU - Xu, Yong

N1 - Publisher Copyright: © The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2024.

PY - 2024/8

Y1 - 2024/8

N2 - This work focuses on moderate deviations for two-time scale systems with mixed fractional Brownian motion. Our proof uses the weak convergence method which is based on the variational representation formula for mixed fractional Brownian motion. Throughout this paper, the Hurst parameter of fractional Brownian motion is larger than 1/2 and the integral along the fractional Brownian motion is understood as the generalized Riemann-Stieltjes integral. First, we consider single-time scale systems with fractional Brownian motion. The key of our proof is showing the weak convergence of the controlled system. Next, we extend our method to show moderate deviations for two-time scale systems. To this goal, we combine the Khasminskii-type averaging principle and the weak convergence approach.

AB - This work focuses on moderate deviations for two-time scale systems with mixed fractional Brownian motion. Our proof uses the weak convergence method which is based on the variational representation formula for mixed fractional Brownian motion. Throughout this paper, the Hurst parameter of fractional Brownian motion is larger than 1/2 and the integral along the fractional Brownian motion is understood as the generalized Riemann-Stieltjes integral. First, we consider single-time scale systems with fractional Brownian motion. The key of our proof is showing the weak convergence of the controlled system. Next, we extend our method to show moderate deviations for two-time scale systems. To this goal, we combine the Khasminskii-type averaging principle and the weak convergence approach.

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KW - 60G15

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Moderate Deviations for Two-Time Scale Systems with Mixed Fractional Brownian Motion

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