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.
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.