| Course Unit Code | 545-0152/01 |
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| Number of ECTS Credits Allocated | 5 ECTS credits |
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| Type of Course Unit * | Choice-compulsory type B |
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| Level of Course Unit * | First Cycle |
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| Year of Study * | Second Year |
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| Semester when the Course Unit is delivered | Winter Semester |
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| Mode of Delivery | Face-to-face |
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| Language of Instruction | Czech |
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| Prerequisites and Co-Requisites | Course succeeds to compulsory courses of previous semester |
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| Name of Lecturer(s) | Personal ID | Name |
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| SVU008 | Ing. Jiří Švub, Ph.D. |
| STA172 | doc. Ing. Pavel Staša, Ph.D. |
| Summary |
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| Learning Outcomes of the Course Unit |
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Students will adopt comprehensive information about the essence of systemic thinking, system sciences and their basic postulates. They will learn how to categorize systems with regard to their structure and properties and to understand their dynamic behavior. Learning outcomes of the course unit. The course focuses not only on the basic concepts of System Theory, it acquaints with key processes in identifying systems. It also deals with the dynamic behavior of systems and simulations of this behavior through models. It also deals with the management of technical systems.
Modeling processes and industrial systems will allow students to easily get information and an overview of processes that take place, for example, in companies. It is a means of help that we can describe and understand in our society for our inner order and behavior.
Learning outcomes of the course presents to students computer modeling of technological processes and systems using modern means such as Petri nets as an effective tool for analysis and synthesis of processes with the ability to understand the parallelism, synchronization and causality of events. The main aim of the course is to introduce students the possibilities of modeling and simulation in the field of industrial systems and technological processes. In this area of modeling and simulation, the modeling and simulation of fluid flow phenomena is based on the CFD program. |
| Course Contents |
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1. System definitions, Checkland and Boulding system taxonomy
2. Systematization and system sciences, principles of system definition on objective reality, continuous linear dynamic systems
3. The importance of modeling and simulation and the phase of the simulation cycle
4. Theory of graphs
5. Application of graph theory in project management, CPM method
6. Modeling and simulation of dynamic systems
7. Petri nets and basic principles of algorithmization
8. Modeling of systems and technological processes using Petri networks
9. Business Process Modeling
10. Enterprise Process Modeling Tools
11. CFD analysis, CFD process
12. Visualization methods
13. SCADA / HMI systems
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| Recommended or Required Reading |
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| Required Reading: |
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STAŠA, P.: Modeling and Simulation of Mine Gases Flow; Monografie, Technická univerzita v Košiciach, Košice 2014, ISBN 978-80-553-1767-0
LAGUNA, Manuel a Johan MARKLUND. Business process modeling, simulation and design. 2nd ed. Boca Raton: CRC Press, c2013. ISBN 978-1-4398-8525-3.
ROSING, Mark Von. The complete business process handbook: body of knowledge from process modeling to bpm. Waltham, MA: Elsevier, 2014. ISBN 9780127999593.
HOLT, J.: A Pragmatic Guide to Business Process Modelling; BCS, The Chartered Institute for IT; New edition (July 20, 2009). ISBN 978-19-0612-412-0 |
STAŠA, P.: Modelování a simulace; skripta, VŠB – TU Ostrava; Ostrava 2014; ISBN 978-80-248-3657-7
HUBÁLOVSKÝ, Štěpán. Teorie systémů, modelování a simulace. Hradec Králové: Gaudeamus, 2011. Recenzované monografie. ISBN 978-80-7435-158-7
HANČLOVÁ, Jana. Ekonometrické modelování: klasické přístupy s aplikacemi. Praha: Professional Publishing, 2012. ISBN 978-80-7431-088-1.
KLIMEŠ, C.: Modelování podnikových procesů; Ostravská univerzita v Ostravě, Ostrava 2014, 120s. Dostupné online: http://www1.osu.cz/~zacek/mopop/mopop.pdf
STAŠA, P.: Modeling and Simulation of Mine Gases Flow; Monografie, Technická univerzita v Košiciach, Košice 2014, ISBN 978-80-553-1767-0 |
| Recommended Reading: |
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HAVEY, Michael. Essential business process modeling. Sebastopol, CA: O'Reilly, c2005. ISBN 0596008430
WEIDLICH, Matthias, Jan MENDLING a Mathias WESKE. Business process modeling notation: Second International Workshop, BPMN 2010, Potsdam, Germany, October 13-14, 2010 : proceedings. New York: Springer, 2010. Lecture notes in business information processing, 67. ISBN 3642162975.
LAW, Averill M. Simulation modeling and analysis. Fifth edition. Dubuque: McGraw-Hill Education, 2013. ISBN 978-0073401324. |
PELÁNEK, R.: Modelování a simulace komplexních systémů: jak lépe porozumět světu. Brno: Masarykova univerzita, 2011. ISBN 978-80-210-5318-2.
JANČÍKOVÁ, Z.: Teorie systémů; VŠB-Technická univerzita Ostrava, Ostrava 2012, ISBN: 978-80-248-2561-8
KOCHANÍČKOVÁ, M.: Petriho sítě. [online] Olomouc, 2008, Učební texty, Univerzita Palackého Olomouc. [cit. 2013-06-15]. Dostupné z: http://phoenix.inf.upol.cz/esf/ucebni/petriho_site.pdf.renamed |
| Planned learning activities and teaching methods |
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| Lectures, Tutorials |
| Assesment methods and criteria |
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| Task Title | Task Type | Maximum Number of Points
(Act. for Subtasks) | Minimum Number of Points for Task Passing |
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| Credit and Examination | Credit and Examination | 100 (100) | 51 |
| Credit | Credit | 30 (30) | 17 |
| Kontrolní test 1 | Written test | 10 | 5 |
| Kontrolní test 2 | Written test | 10 | 5 |
| Semestrální práce | Semestral project | 10 | 7 |
| Examination | Examination | 70 (70) | 34 |
| Písemná zkouška | Written examination | 35 | 17 |
| Ústní zkouška | Oral examination | 35 | 17 |