Engineering Software
General
- Code: 55.08
- Semester: Optional Ε1-Ε2 5th
- Study Level: Undergraduate
- Course type: Optional
- Teaching and exams language: Ελληνικά
- The course is offered to Erasmus students
- Teaching Methods (Hours/Week): Theory (2) / Exercises (1)
- ECTS Units: 4
- Course homepage: https://exams-sm.the.ihu.gr/enrol/index.php?id=110
- Instructors: Tsirigotis Georgios
Course Contents
The taught modules concern:
1. Introduction to Matlab and Simulink
2. Signal creation
3. Even and odd signals
4. Signal power calculation
5. Fourier Series signal analysis
6. Frequency response of Transfer Functions
7. Generating Time Functions – Solving Differential Equations
8. Transfer Function simulation
9. First order analogue system simulation
10. Second order analogue system simulation
11. Block Diagrams
12. Digital Control Systems
13. Sampling
14. Digital signal creation
15. First order digital system simulation
16. Second order digital system simulation
17. Control of Analogue Systems
18. Control of Digital Systems
19. Simulation of non-Linear Control Systems
Educational Goals
The learning objectives is to:
• Introduce the student to Software used in the study and problem solving in the field of Industrial Engineering and Management.
• Provide him with the appropriate knowledge and skills to be able to simulate and solve problems in the various fields of engineering science (eg Applied Mathematics, Automated Control Systems, Signals and Systems, Electrical Circuits, etc.).
• Use the Computer Control (CC) and MATLAB (Simulink) software for the above procedures, in addition to the standard method.
General Skills
Search for, analysis and synthesis of data and information, with the use of the necessary technology
Working independently
Teamwork
Project planning and management
Production of new research ideas
Teaching Methods
Presentation with Software and a whiteboard. Contact by e-mail and Moodle. Solution of exercises and Case Studies with Simulation Software.
Students Evaluation
Final exams (100%): Study of an integral system with analysis and synthesis of his elements according to the study methods examined during the course.
Project in special cases.
Recommended Bibliography
1) Course Notes
2) Modern Control Systems. Dorf, Richard C., Bishop, Robert 2018.
3) Theory and Problems of Feedback and Control Systems with Applications to the Engineering, Physical and Life Sciences. DiStefano, Josheph J.,
Stubberud, Allen R., Williams, Ivan J.
4) KJ. Astrom, B. Wittenmark, Computer Controlled Systems. Prentice Hall 1984.
5) J. d’ D’Azzo, C. H. Houpis, Linear Control System Analysis and Design. Mc. Graw-Hill 1986.
6) B. Friedland, Control System Design. Mc. Graw-Hill 1986.
7) B.C.Kuo, Automatic Control Systems. Prentice-Hall 1987.
8) R. Gayakwad, L. Sokoloff, Analog and Digital Control Systems. Prentice Hall 1988.
9) Norman S. Nise, Control Systems Engineering. Wiley, 2006.
10) Control System Toolbox, Getting Started Guide, MathWorks, 2014.
11) Program CC5 Manual.