Technische Universität Ilmenau

Hybrid Systems - Modultafeln of TU Ilmenau

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module properties module number 200756 - common information
module number200756
departmentDepartment of Computer Science and Automation
ID of group2211 (Automation Engineering)
module leader Dr. Aouss Gabash
languageEnglisch
term Wintersemester
previous knowledge and experience

Student should have a background in control, systems, or automation engineering.

learning outcome

By the end of the course, the students are able to classify and evaluate the elementary properties of common signals and hybrid dynamic systems. They areable to derive hybrid dynamic system models for engineering processes and master the use of tools for their simulation. They have basic knowledge in the analysis, synthesis, and stability of hybrid control-loop structures in the time domain.

content

.  Introduction to hybrid systems
.  Modelling of hybrid systems
.  Numerical algorithms and simulation tools
.  Analysis and synthesis of hybrid systems
.  Control of hybrid systems
.  Stability analysis of hybrid systems

media of instruction and technical requirements for education and examination in case of online participation

Blackboard, slides, projector presentations, handouts, online

literature / references

.  Reinisch, K. (1974). Kybernetische Grundlagen und Beschreibung kontinuierlicher Systeme. Berlin: VEB Verlag Technik.
.  Reinisch, K. (1996). Analyse und Synthese kontinuierlicher Steuerungssysteme und Regelungssysteme. Berlin: VEB Verlag Technik.
.  Bequette, B. W. (1998). Process Dynamics Modeling, Analysis, & Simulation. Prentice Hall.
.  van der Schaft, A., & Schumacher, H. (2000). An Introduction to Hybrid Dynamical Systems. Springer-Verlag London.
.  Lunze, J. (2009). Handbook of Hybrid Systems Control: Theory, Tools, Applications. Cambridge University Press.
.  Gabash, A. (2020) Hybrid Systems: Illustrations in MATLAB Live Editor. Textbook, TU Ilmenau.

evaluation of teaching
Details reference subject
module nameHybrid Systems
examination number2200855
credit points5
SWS3 (2 V, 1 Ü, 0 P)
on-campus program (h)33.75
self-study (h)116.25
obligationobligatory module
examwritten examination performance, 120 minutes
details of the certificate
alternative examination performance due to COVID-19 regulations incl. technical requirements
signup details for alternative examinations
maximum number of participants
Details in degree program Master Electrical Power and Control Engineering 2013, Master Elektrotechnik und Informationstechnik 2014 (AST), Master Research in Computer & Systems Engineering 2016
module nameHybrid Systems
examination number2200855
credit points5
on-campus program (h)34
self-study (h)116
obligationelective module
examwritten examination performance, 120 minutes
details of the certificate
alternative examination performance due to COVID-19 regulations incl. technical requirements
signup details for alternative examinations
maximum number of participants