SylabUZ
Course name | Modelling and Simulation of Technological Processes |
Course ID | 06.1-WM-ER-MiBM-06_18 |
Faculty | Faculty of Mechanical Engineering |
Field of study | WM - oferta ERASMUS |
Education profile | - |
Level of studies | Erasmus programme |
Beginning semester | winter term 2023/2024 |
Semester | 2 |
ECTS credits to win | 3 |
Course type | obligatory |
Teaching language | english |
Author of syllabus |
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The class form | Hours per semester (full-time) | Hours per week (full-time) | Hours per semester (part-time) | Hours per week (part-time) | Form of assignment |
Lecture | 30 | 2 | - | - | Credit with grade |
Laboratory | 30 | 2 | - | - | Credit with grade |
The aim of the course is to familiarize students with the methods of mathematical and physical modeling as well as with methods and techniques of processes simulation. To familiarize students with the options of the use of the modelling and simulation techniques for technological processes.
Mathematics, Physics, Mechanics and Strength of Materials, Fundamentals of Machine Design, Automated Transport and Storage , The ability to use basic computer tools,
The content of the lecture:
Basic concepts connected with modelling and simulation of processes: model, system, simulation, process. Model construction. Types of models and algorithms of modelling processes. Issues connected with mathematical and physical modelling and simulation of processes: data types and their collection, define parameters and variables, define a problem. Issues: apparatus of dimensional analysis, modelling with the use of dimensional functions. Methods of formalization of description of process and object. Network models. Scheduling. Practical examples of using discussed modelling methods for technological processes like: shaping products and organization processes involving with manufacturing preparation and production. Computer tools in modelling and simulation of processes.
The content of the laboratory:
Create virtual models, dimensional analysis and simulation o work of appliances used in metal working. Network models for technological processes. Scheduling - planning of working and shaping appliances for chosen products.
Lecturers are given with the use of multimedia technics. Work with specialist literature – textbooks, professional journals.
Laboratories are given with the use of computer software – methods: problem tasks, solution analysis. Individual and group job during the realization of laboratory exercises. Presentation of solutions, discussion about obtained solutions and possibilities of its modernizations.
Outcome description | Outcome symbols | Methods of verification | The class form |
To get a credit the student has to pass all course forms.
1. Severance F. W., System modeling and simulation - an introduce, Wiley, West Sussex 2001,
2. Totten G. E. , Xie L., Funatani K.,Modeling and simulation for material selection and mechanical design, Marcel Dekker INC, New York Basel 2004,
3. Miranda F., Abreu C., Handbook of research on computational simulation and modeling in engineering, IGI Global, USA 2015,
4. Banerjee S., Mathematical modeling: models, analysis and applications, CRC Press, USA 2014,
1. Hübl, A., Stochastic Modelling in Production Planning, Springer Gabler, Wiesbaden 2018,
Modified by dr Katarzyna Skrzypek (last modification: 31-05-2023 14:15)