System Engineering |
YAMANE, Ken |
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【Information and Electronic Engineering・2nd semester】
19-1-0504-3192 |
1. |
Outline |
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The main topics are as follows: systems approach, optimization, reliability, modeling and simulation, and control. This class also deals with academic fields related to systems science.
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2. |
Objectives |
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This course aims at expanding students' knowledge in the field of systems engineering and systems science. Students will learn basic skills for developing complex engineering systems.
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3. |
Grading Policy |
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Students are evaluated with a mid-term exam (30%), one report (30%) and a term exam (40%).
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4. |
Textbook and Reference |
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No textbook is used.
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5. |
Requirements (Assignments) |
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Students need to use LMS.
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6. |
Note |
|
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7. |
Schedule |
|
1. Introduction |
2. What is a system? |
3. Systems approach |
4. System design technique |
5. System optimization |
6. System reliability |
7. System modeling and simulation |
8. System control |
9. Summary, mid-term exam |
10. Intelligent system |
11. Complex system I: fractal, chaos, etc. |
12. Complex system II: cellular automaton, percolation, etc. |
13. Game theory |
14. System theory |
15. Summary, term exam |
|
1. |
Outline |
|
The main topics are as follows: systems approach, optimization, reliability, modeling and simulation, and control. This class also deals with academic fields related to systems science.
|
2. |
Objectives |
|
This course aims at expanding students' knowledge in the field of systems engineering and systems science. Students will learn basic skills for developing complex engineering systems.
|
3. |
Grading Policy |
|
Students are evaluated with a mid-term exam (30%), one report (30%) and a term exam (40%).
|
4. |
Textbook and Reference |
|
No textbook is used.
|
5. |
Requirements (Assignments) |
|
Students need to use LMS.
|
6. |
Note |
|
|
7. |
Schedule |
|
1. Introduction |
2. What is a system? |
3. Systems approach |
4. System design technique |
5. System optimization |
6. System reliability |
7. System modeling and simulation |
8. System control |
9. Summary, mid-term exam |
10. Intelligent system |
11. Complex system I: fractal, chaos, etc. |
12. Complex system II: cellular automaton, percolation, etc. |
13. Game theory |
14. System theory |
15. Summary, term exam |
|
|