Journal of Function Spaces and Applications (Jan 2013)
Initial Boundary Value Problem of the General Three-Component Camassa-Holm Shallow Water System on an Interval
Abstract
We study the initial boundary value problem of the general three-component Camassa-Holm shallow water system on an interval subject to inhomogeneous boundary conditions. First we prove a local in time existence theorem and present a weak-strong uniqueness result. Then, we establish a asymptotic stabilization of this system by a boundary feedback. Finally, we obtain a result of blow-up solution with certain initial data and boundary profiles.