Two simple criterion to obtain exact controllability and stabilization of a linear family of Dispersive PDE's on a periodic domain

Abstract

In this work, we use the classical moment method to find a practical and simple criterion to determine if a family of linearized Dispersive equations on a periodic domain is exactly controllable and exponentially stabilizable with any given decay rate in Hsp(T) with s∈ R. We apply these results to prove that the linearized Smith equation, the linearized dispersion-generalized Benjamin-Ono equation, the linearized fourth-order Schr\"odinger equation, and the Higher-order Schr\"odinger equations are exactly controllable and exponentially stabilizable with any given decay rate in Hsp(T) with s∈ R.

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