Hao Tang scite author profile

The subject of this paper is a generalized Camassa-Holm equation under random perturbation. We first establish local existence and uniqueness results as well as blow-up criteria for pathwise solutions in the Sobolev spaces H s with s > 3/2. Then we analyze how noise affects the dependence of solutions on initial data. Even though the noise has some already known regularization effects, much less is known concerning the dependence on initial data. As a new concept we introduce the notion of stability of exiting times and construct an example showing that multiplicative noise (in Itô sense) cannot improve the stability of the exiting time, and simultaneously improve the continuity of the dependence on initial data. Finally, we obtain global existence theorems and estimate associated probabilities.

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A note on the solution map for the periodic Camassa–Holm equation

Tang

Zhao

Liu

2013

Applicable Analysis

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Distribution-Path Dependent Nonlinear SPDEs with Application to Stochastic Transport Type Equations

Ren¹,

Tang²,

Wang³

2020

Preprint

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By using a regularity approximation argument, the global existence and uniqueness are derived for a class of nonlinear SPDEs depending on both the whole history and the distribution under strong enough noise. As applications, the global existence and uniqueness are proved for distribution-path dependent stochastic transport type equations, which are arising from stochastic fluid mechanics with forces depending on the history and the environment. In particular, the distribution-path dependent stochastic Camassa-Holm equation with or without Coriolis effect has a unique global solution when the noise is strong enough, whereas for the deterministic model wave-breaking may occur. This indicates that the noise may prevent blow-up almost surely.

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Well-posedness of the modified Camassa–Holm equation in Besov spaces

Tang

Liu

2014

Z. Angew. Math. Phys.

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Hao Tang

On the Pathwise Solutions to the Camassa--Holm Equation with Multiplicative Noise

On a Stochastic Camassa–Holm Type Equation with Higher Order Nonlinearities

A note on the solution map for the periodic Camassa–Holm equation

Distribution-Path Dependent Nonlinear SPDEs with Application to Stochastic Transport Type Equations

Well-posedness of the modified Camassa–Holm equation in Besov spaces

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