Book contents
- Frontmatter
- Contents
- Preface
- List of Contributors Present at the Summer School
- 1 Controllability of Parabolic Systems: The Moment Method
- 2 Stabilization of Semilinear PDEs, and Uniform Decay under Discretization
- 3 A Null-Controllability Result for the Linear System of Thermoelastic Plates with a Single Control
- 4 Doubly Connected V-States for the Generalized Surface Quasi-geostrophic Equations
- 5 About Least-Squares Type Approach to Address Direct and Controllability Problems
- 6 A Note on the Asymptotic Stability of Wave-Type Equations with Switching Time-Delay
- 7 Ill-Posedness of Coupled Systems with Delay
- 8 Controllability of Parabolic Equations by the Flatness Approach
- 9 Mixing for the Burgers Equation Driven by a Localized Two-Dimensional Stochastic Forcing
Preface
Published online by Cambridge University Press: 25 October 2017
- Frontmatter
- Contents
- Preface
- List of Contributors Present at the Summer School
- 1 Controllability of Parabolic Systems: The Moment Method
- 2 Stabilization of Semilinear PDEs, and Uniform Decay under Discretization
- 3 A Null-Controllability Result for the Linear System of Thermoelastic Plates with a Single Control
- 4 Doubly Connected V-States for the Generalized Surface Quasi-geostrophic Equations
- 5 About Least-Squares Type Approach to Address Direct and Controllability Problems
- 6 A Note on the Asymptotic Stability of Wave-Type Equations with Switching Time-Delay
- 7 Ill-Posedness of Coupled Systems with Delay
- 8 Controllability of Parabolic Equations by the Flatness Approach
- 9 Mixing for the Burgers Equation Driven by a Localized Two-Dimensional Stochastic Forcing
Summary
This volume constitutes the proceedings of the summer school MIS 2015, “Mathematics In Savoie 2015,” whose theme was: “Evolution Equations: long time behavior and control.”
This summer school was held at the University Savoie Mont Blanc, Chambéry in the period June 15–18, 2015 (see http://lama.univ-savoie.fr/ MIS2015 for details). It was organized by Kaïs Ammari, UR Analysis and Control of PDE, University of Monastir, Tunisia, and Stéphane Gerbi, Laboratoire de Mathématiques, University Savoie Mont Blanc, France.
The summer school consisted of two mini-courses in the morning while the afternoons were devoted to various contributions on the theme.
The first mini-course was held by Farid Ammar-Khodja, University of Franche-Comté, France. The topic was: “Controllability of parabolic systems: the moment method.” This recent point of view on the controllability of parabolic systems permits to overview the moment method for parabolic equations. This course constitutes the first part of this volume.
The second part of this volume is devoted to the second mini-course which was held by Emmanuel Trélat, UPMC, Paris. The topic was “Stabilization of semilinear PDEs, and uniform decay under discretization.” This course was devoted to the numerical stabilization and control of partial differential equations and more specifically it addresses the problem of the construction of numerical feedback control that will preserve the theoretical rate of decay.
Several of the speakers agreed to write review papers related to their contributions to the summer school, while others have written more traditional research papers, which constitute the last part of this volume.
We believe that this volume therefore provides an accessible summary of a wide range of active research topics, along with some exciting new results, and we hope that it will prove a useful resource for both graduate students new to the area and to more established researchers.
The summer school brought together internationally leading researchers from the community of control theory and young researchers who came from all around the world. The organizers’ intention was to provide a wide angle snapshot of this exciting and fast moving area and facilitate the exchange of ideas on recent advances in its various aspects. The numerous formal, informal, and sometimes lively discussions that resulted from this interaction were for us a sign that we achieved something in the direction of fulfilling this aim.
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- Evolution EquationsLong Time Behavior and Control, pp. vii - viiiPublisher: Cambridge University PressPrint publication year: 2017