Terminated in academic year 2024/2025
Design Methodology in Mechatronics
| Type of study | Follow-up Master |
|---|---|
| Language of instruction | Czech |
| Code | 354-0502/02 |
| Abbreviation | MKM |
| Course title | Design Methodology in Mechatronics |
| Credits | 5 |
| Coordinating department | Department of Robotics |
| Course coordinator | Ing. Václav Krys, Ph.D. |
Subject syllabus
1. Engineering activities and process of mechanical design; current trends and contexts.
2. Design engineering; Requirements of industrial practice; Model of engineering design process, procedures and methods; Algorithms vs. intuition.
3. Team Work Principals.
4. Product life cycle.
5. Tendencies of development of technical systems. Tendencies of innovations.
6. Model of technical system/process components and SW tools.
7. Model of technical system/process structure and functions. SW tools.
8. Fine-tuning of the technical system by components reduction and additional functions development. SW tools.
9. Contradictions in invention tasks. Typal inventive task.
10. Methodology for overcoming technical contradictions and SW tools.
11. Methodology for overcoming physical contradictions and SW tools.
12. Invention Machine SW tools supporting the inventive process.
13. Examples of TRIZ methodology outputs.
14. Additional SW support of the innovation process – PLM systems.
2. Design engineering; Requirements of industrial practice; Model of engineering design process, procedures and methods; Algorithms vs. intuition.
3. Team Work Principals.
4. Product life cycle.
5. Tendencies of development of technical systems. Tendencies of innovations.
6. Model of technical system/process components and SW tools.
7. Model of technical system/process structure and functions. SW tools.
8. Fine-tuning of the technical system by components reduction and additional functions development. SW tools.
9. Contradictions in invention tasks. Typal inventive task.
10. Methodology for overcoming technical contradictions and SW tools.
11. Methodology for overcoming physical contradictions and SW tools.
12. Invention Machine SW tools supporting the inventive process.
13. Examples of TRIZ methodology outputs.
14. Additional SW support of the innovation process – PLM systems.
Literature
Gadd,K. [I]TRIZ for Engineers: Enabling Inventive Problem Solving[/I], First Edition, UK: Wiley, 2011, ISBN 978-0-470-74188-7