Advanced Digital Control

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Module name	Advanced Digital Control
Type of module	Selectable mandatory module
Learning outcomes, competencies, qualification goals	The student is able to: model, implement and analyze processes, test, create and evaluate open and closed control algorithms in models and programs, verify and validate software modules, document and evaluate results critically. Learning results with regard to the objectives of the course of study: Gaining deeper insight into the mathematical and natural science areas Gaining a deeper knowledge about the specific electrical fundamentals Acquiring enhanced and applied subject-specific basics Identifying and classifying complex electro-technical and inter-disciplinary tasks Being confident in the ability to use and evaluate analytical methods Being able to create and evaluate solving methods independently Familiarizing oneself with new areas of knowledge, running searches and assessing the results Gaining important and profound experience in the area of practical technical skills and engineering activities Working and researching in national and international contexts
Types of courses	4 SWS (semester periods per week): 2 SWS lecture 2 SWS exercise
Course contents	Structured design of digital control algorithms Modeling and analyzing industrial processes Methods for the verification and validation of modules Transposing time-continuous processes and procedures into digital methods that are process computer-supported
Teaching and learning methods (forms of teaching and learning)	Lecture, presentation, learning by teaching, self-regulated learning, problem-based learning
Frequency of the module offering	Winter term
Language	English
Requirements for the participation in the module	Prerequisites according to examination regulations
Student workload	180 h: 60 h attendance studies 120 h personal studies
Academic performances	Academic performance: 2 documentations/reports
Precondition for the admission to the examination performance	None
Examination performance	Written examination 120-180 min. or oral examination 20-40 min.
Number of credits of the module	6 credits and 1 credit of them applies to the integrated key competencies
In charge of the module	Dr. Michael Schwarz
Teacher of the module	Dr. Michael Schwarz and co-workers
Forms of media	Projector, black board, piece of paper, demonstrations and design work at the PC
Literature references	Günter Wellenreuther, Dieter Zastrow, Automation with PLC - Theory and Practice. Viegweg+Teubner, GMV Fachverlage GmbH, 2011, L. Litz, Fundamentals of automation technology, Oldenburg Wissenschaftsverlag GmbH 2005, Äström, Karl J. ; Hägglund, Tore, PID controllers, Research Triangle Park, NC : Instrument Soc. of America, 1995 Grimble M. Robust Industrial Control Systems. Wiley, 2006 Landau, I. D. ; Zito, G. Digital control systems design, identification and implementation, London : Springer, 2006 More reference literature is going to be recommended in the course. Goble, W. M., Control systems safety evaluation and reliability, 3rd ed. ISA resources for measurement and control series. Research Triangle Park, N.C: International Society of Automation, 2010. Goble, W. M. and Goble, W. M. E. c. s. r., Control systems safety evaluation and reliability , 2nd ed. Resources for measurement and control series. Research Triangle Park, N.C. ISA, 1998. Birolini, A., Reliability of devices and systems. Springer eBook Collection Computer Science and Engineering. Berlin, Heidelberg: Springer Berlin Heidelberg, 1997. Schnieder, L. and Hosse, R. S., Guide Safety of the Intended Functionality: Refining the Safety of the Intended Functionality on the Road to Autonomous Driving / Lars Schnieder, René S. Hosse, Second edition. essentials. Wiesbaden: Springer Vieweg, 2020. Gregorius, C., ed., Functional safety of machinery: Practical application of DIN EN ISO 13849-1, 1st edition. Beuth Practice Mechanical Engineering. Berlin: Beuth Verlag, 2016. ebookcentral.proquest.com/lib/kxp/detail.action. Montenegro, S., Safe and fault-tolerant control systems: Entwicklung sicherheitsrelevanter Systeme. Munich, Vienna: Carl Hanser Verlag, 1999. Kumamoto, H. and Henley, E. J., Probabilistic risk assessment and management for engineers and scientists, 2nd ed. New York: IEEE Press, 1996.

Advanced Digital Control

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