| Course Unit Code | 345-0537/03 |
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| Number of ECTS Credits Allocated | 4 ECTS credits |
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| Type of Course Unit * | Compulsory |
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| Level of Course Unit * | Second Cycle |
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| Year of Study * | Second Year |
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| Semester when the Course Unit is delivered | Summer 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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| SED095 | Ing. Vladimíra Schindlerová, Ph.D. |
| PET0440 | Mgr. Kamil Peterek, Ph.D. |
| Summary |
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| The aim of the course is based on previous knowledge, to deepen knowledge of the specification of manufacturing processes and systems using different procedures and methods of implementation. The subject is implemented at two levels, the solution of the model structure of production processes with interactive models linked to specific technological processes of thermomechanical processing and metallurgy. |
| Learning Outcomes of the Course Unit |
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Ability
- to classify a principles of physical and numerical modeling
- to interpret these principles in methods of production processes analysis
- to model a subjects response on processes parameters
- to differentiate methods of analysis following their application
- to describe modelling method
- to apply modelling methods in manufacturing processes |
| Course Contents |
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1. System - the characteristics and definitions. System modeling, properties of elements.
2. Similarity as a basis for modeling. Types of models. Process modeling.
3. System analysis. System design methodology.
4. Methods of software modeling of manufacturing processes.
5. Spatial structures of production systems and processes, optimization
6. Application of heuristic methods to solve mathematical models.
7. Models of energy flow, material and personnel costs in the structure of systems and processes.
8. Simulation techniques - basic concepts, procedures for the identification and management of production processes.
9. Application of simulation methods, modelling software, visualization and interpretation.
10. Modelling and simulation of processes of phase and microstructural changes.
11. Modelling and simulation of metallurgical processes, welding and cutting.
12. Modeling and simulation of processes of plastic deformation.
13. Virtual factory.
14. Data flows in technological design. |
| Recommended or Required Reading |
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| Required Reading: |
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[1] OH, S. I. LAHOTI, G. D. ALTAN, T. Application of FEM to Industrial Metal Forming Processes. Numerical methods in Industrial Forming Processes, Pittman, J. F. T. at al (eds) Pineritge Press Ltd., Swansea, U.K., 1982
[2] BOOCH, G., JACOBSON, I., RUMBAUGH, J. The Unified Modeling Language User Guide, Addison Wesley Longman, Inc., 1999
[3] KOBAYASHI, S. aj. Metal Forming and the Finite-Element Method, Oxford
University Press, Oxford
[4] GRONG, O. Metallurgical Modelling of Welding.The Institute of Material,
London, 1994, 581 s., ISBN 0901716375 |
[1] OH, S. I. LAHOTI, G. D. ALTAN, T. Application of FEM to Industrial Metal Forming Processes. Numerical methods in Industrial Forming Processes, Pittman, J. F. T. at al (eds) Pineritge Press Ltd., Swansea, U.K., 1982
[2] ONDRÁČEK, E.; JENÍČEK, K. Výpočtové modely v technické praxi. Praha, SNTL 1990.
[3] BOOCH, G., JACOBSON, I., RUMBAUGH, J. The Unified Modeling Language User Guide, Addison Wesley Longman, Inc., 1999
[4] KOBAYASHI, S. aj. Metal Forming and the Finite-Element Method, Oxford
University Press, Oxford
[5] GRONG, O. Metallurgical Modelling of Welding.The Institute of Material,
London, 1994, 581 s., ISBN 0901716375
|
| Recommended Reading: |
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[1] WIL VAN DER AALST, KEES VAN HEE. Worklflow Management, Models, Methods, and Systems. MIT Press, 2002
[2] WIL VAN DER AALST. Formalization and Verification of Event-driven Process Chains. Information and Software Technology, 41(10):639-650, 1999. |
[1] WIL VAN DER AALST, KEES VAN HEE. Worklflow Management, Models, Methods, and Systems. MIT Press, 2002
[2] WIL VAN DER AALST. Formalization and Verification of Event-driven Process Chains. Information and Software Technology, 41(10):639-650, 1999. |
| 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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| Graded credit | Graded credit | 100 | 51 |