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Japan is located in the typhoon strike area and receives two or three typhoons landing each year. Each time, large and small kinds of strong wind damage are reported. Also, as structural form develops and complicates, there are many cases where vibration phenomenon which did not predict appears. Here we will discuss the various problems of aerodynamic vibrations occurring in high wind disasters, which are one of natural disasters and parts of various structures and structures, especially damage of structures, their wind resistance stability, Based on mechanics, structural engineering, meteorology and probabilistic statistics, we learn comprehensively from the basics of design theory to related topics of bridge stripping fluid dynamics.
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1. Introduction to structure, safety and design
2. Design scenario with a viewpoint on the design outline of the structure
3. Design Theory and Extreme Value Analysis
4. Design method and setting of safety verification standard
5. Introduction to strong wind disasters and civil engineering wind resistant design under string wind
6. Strong wind disasters and various wind gust phenomena seen from the wind resistant design of the structure, in mainly meteorology,
7. Ideas on engineering strong wind and international design wind speed
8. Outline of wind phenomena and design approaches. Static wind force, displacement of structure, vibration and wind load, wind load theory, relation between gust response theory
9.Theory of Aero-elasticity theory and Phenomena Part 1
10. Theory of Aero-elasticity theory and Phenomena part 2 in bridge decks, cable, parallel, etc. .
11. Response Analysis of Structures and Safety in Aeroelasticity, Windproof Design, Dynamic Wind-Proof Design Problem
12. Wind tunnel test methodology 1
13. Wind tunnel test methodology 2
14. Specificity of the aerodynamic elastic vibration control
15. Uncertainty and overall safety guarantee of the wind-resistant design
16. Quiz
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Fundamental knowledge in Structural dynamics, Meteorology, Fluid dynamics
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With regard to the design of civil engineering structures, the risks of natural disasters can be explained to the stakeholders
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With regard to the design of civil engineering structures, the risks of natural disasters can be explained to the stakeholders
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Evaluate students who attended the lecture at all times in the final examination.
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【成績評価の基準表】
| 秀(S) | 優(A) | 良(B) | 可(C) | 不可(F) |
| 履修目標を越えたレベルを達成している | 履修目標を達成している | 履修目標と到達目標の間にあるレベルを達成している | 到達目標を達成している | 到達目標を達成できていない |
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履修目標:授業で扱う内容(授業のねらい)を示す目標
到達目標:授業において最低限学生が身につける内容を示す目標
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Each schedule is adjusted at the beginning of the lecture.
Since materials are informed in advance, preparation is essential for understanding.
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All of textbooks are jus as references
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Related subjects: It is based on understanding and basic knowledge on the structural dynamics and vibration studies at the undergraduate level (for example, the dynamics I, II and III of the structure of the science and engineering urban infrastructure EP and the contents equivalent to the dynamics of vibration).
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設計(structural design),構造動力学(structural dynamics),リスク評価(resk evakuation)
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