SOLVING THE REGULATOR PROBLEM FOR THE ONE-DIMENSIONAL SCHRODINGER EQUATION VIA BACKSTEPPING

Zhou Hua-Cheng, George Weiss

Research output: Contribution to journalArticlepeer-review

Abstract

We investigate the regulator problem (tracking and disturbance rejection) for a system (plant) described by a boundary controlled anti-stable linear one-dimensional Schrodinger equation, using the backstopping approach. The output to be controlled is not required to be measurable and its observation operator is assumed to be admissible for a certain operator semigroup that is related to the operator semigroup of the original plant. We consider both the state feedback and the output feedback regulator problem. In the latter case, the measurement from the Schrödinger equation is taken at the boundary. First we show that the open-loop system is well-posed. We design a state feedback control law that solves the regulator problem by the backstepping method. Then, a finite-dimensional reference observer and an infinite-dimensional disturbance observer arc designed. Putting these together, we obtain an output feedback controller with internal loop that achieves output regulation.

Original languageEnglish
Pages (from-to)229-258
Number of pages30
JournalPure and applied functional analysis
Volume5
Issue number1
StatePublished - 2020

Keywords

  • Admissible observation operator
  • Backstepping
  • Compatible system node
  • Controller with internal loop
  • Exosystem
  • Observer
  • Regulator problem
  • Schrodinger equation

All Science Journal Classification (ASJC) codes

  • Analysis
  • Applied Mathematics
  • Control and Optimization

Cite this