Mathematical Modeling for Nonlinear Control, A Hamiltonian Approach
Sprache des Vortragstitels:
Englisch
Original Tagungtitel:
5th Vienna Symposium on Mathematical Modelling, Mathmod 2006
Sprache des Tagungstitel:
Englisch
Original Kurzfassung:
Modern model based nonlinear ontrol requires a good mathematial desription of the system we want to ontrol, for both, the system analysis and the controller design. Obviously, the term nonlinear system is too broad, and one is interested in subclasses of nonlinear systems with at least two properties. These classes should cover real world problems. There should exist controller design
methods, powerful enough to admit a systematic design of the closed loop with certain properties. Now, classial Hamiltonian systems have a rich mathematical structure, which has been extended such that dissipative effects or inputs and outputs, or better ports, are included in this class. This contribution starts with a Hamiltonian description of linear time invariant lumped parameter systems to motivate the introduction of certain mathematical ideas, which will be exploited in the nonlinear case afterwards. After that the approach will be extended to the distributed parameter case. Finally, the applicability of the presented methods is shown with the help of a piezoeletric elastic structure.
Sprache der Kurzfassung:
Englisch
Englischer Vortragstitel:
Mathematical Modeling for Nonlinear Control, A Hamiltonian Approach
Englischer Tagungstitel:
5th Vienna Symposium on Mathematical Modelling, Mathmod 2006
Englische Kurzfassung:
Modern model based nonlinear ontrol requires a good mathematial desription of the system we want to control, for both, the system analysis and the controller design. Obviously, the term nonlinear system is too broad, and one is interested in subclasses of nonlinear systems with at least two properties. These classes should cover real world problems. There should exist controller design
methods, powerful enough to admit a systematic design of the closed loop with certain properties. Now, classial Hamiltonian systems have a rich mathematical structure, which has been extended such that dissipative effects or inputs and outputs, or better ports, are included in this class. This contribution starts with a Hamiltonian description of linear time invariant lumped parameter systems to motivate the introduction of certain mathematical ideas, which will be exploited in the nonlinear case afterwards. After that the approach will be extended to the distributed parameter case. Finally, the applicability of the presented methods is shown with the help of a piezoeletric elastic structure.
Vortragstyp:
Hauptvortrag / Eingeladener Vortrag auf einer Tagung