Module Handbook

  • Dynamischer Default-Fachbereich geändert auf MAT

Course MAT-80-19-K-4

Introduction to Systems and Control Theory; Differential-Algebraic Equations (4V+2U, 9.0 LP)

Course Type

SWS Type Course Form CP (Effort) Presence-Time / Self-Study
- K Lecture with exercise classes (V/U)
4 V Lecture 6.0 CP 56 h 124 h
2 U Exercise class (in small groups) 3.0 CP 28 h 62 h
(4V+2U) 9.0 CP 84 h 186 h

Basedata

SWS 4V+2U
CP, Effort 9.0 CP = 270 h
Position of the semester 1 Sem. irreg. SuSe
Level [4] Bachelor (Specialization)
Language [EN] English
Lecturers
Area of study [MAT-TEMA] Industrial Mathematics
Livecycle-State [NORM] Active

Notice

The course consists of the two parts [MAT-80-12A-K-4] and [MAT-81-23-K-4].

In each summer semester at least one of the courses [MAT-80-18-K-4] or [MAT-80-19-K-4] is offered.

Possible Study achievement

  • Verification of study performance: proof of successful participation in the exercise classes (ungraded)
    The certificate for the exercises ("Übungsschein") consists of the two (partial) certificates for the exercises in the courses [MAT-80-12A-K-4] and [MAT-81-23-K-4].

Contents

Introduction to Systems and Control Theory:

Basic terms and ideas of Systems and Control Theory as well as their applications will be discussed. In particular, the following contents will be covered:

  • representation of time-discrete and continuous linear and non-linear dynamic systems,
  • stability of dynamic systems,
  • accessibility, controllability, observability,
  • feedback rule.

Differential-Algebraic Equations:

  • basics: existence and uniqueness,
  • autonomous equations,
  • stability theory,
  • nonlinear systems, local theory, theorem of Hartman-Grobman, non hyperbolic equilibrium points and Lyapunov theory,
  • periodic orbits, Poincaré Bendixon and applications, invariant sets,
  • bifurcation theory,
  • applications.

Competencies / intended learning achievements

The students have studied and understand the basic concepts required for describing dynamic systems as well as mathematical techniques for the analysis of these systems and the design of control systems. They are familiar with the various possible applications resulting from the use of mathematical control theory.

Furthermore, the students have studied and understandd the basic concepts of the theory and numerical analysis of differential-algebraic equations.

Literature

Introduction to Systems and Control Theory:

  • E. Zerz: Introduction to Systems and Control Theory,
  • J.W. Polderman, J. Willems,: Introduction to Mathematical Systems Theory,
  • H.W. Knobloch, H. Kwakernaak, Lineare Kontrolltheorie,
  • D. Hinrichsen, A.J. Pritchard, Mathematical Systems Theory I,
  • E.D. Sontag, Mathematical Control Theory.

Differential-Algebraic Equations:

  • J.K. Hale, H. Kocak: Dynamics and Bifurcations,
  • H. Heuser: Gewöhnliche Differentialgleichungen,
  • B. Marx, W. Vogt: Dynamische Systeme,
  • J.W. Prüss, M. Wilke: Gewöhnliche Differentialgleichungen und dynamische Systeme.
  • K. Burg, H. Haf, F. Wille, A. Meister: Höhere Mathematik für Ingenieure. Band III: Gewöhnliche Differentialgleichungen, Distributionen, Integraltransformationen.

Materials

Further literature will be announced in the lecture; Exercise material is provided.

Registration

Registration for the exercise classes via the online administration system URM (https://urm.mathematik.uni-kl.de).

References to Course [MAT-80-19-K-4]

Course-Pool Name
[MAT-80-4V-KPOOL-4] Elective Courses Modelling and Scientific Computing (4V, B.Sc.)
[MAT-80-KPOOL-4] Specialisation Modelling and Scientific Computing (B.Sc.)