| 開講学期/Course Start | 2016年度/Academic Year 後期/Second |
|---|---|
| 開講曜限/Class period | 他/Oth. |
| 授業区分/Regular or Intensive | 集中講義 |
| 対象学科/Department | |
| 対象学年/Year | 1年 , 2年 |
| 授業科目区分/Category | 博士前期課程 大学院自専攻科目 |
| 必修・選択/Mandatory or Elective | 選択 |
| 授業方法/Lecture or Seminar | |
| 授業科目名/Course Title | 航空宇宙航行システム工学特論 |
| 単位数/Number of Credits | 1 |
| 担当教員名/Lecturer | 樋口 健 (機械航空創造系学科航空宇宙システム工学コース) , 舞田正孝 (学部) , 高野 忠 (学部) |
| 時間割コード/Registration Code | MQ215 |
| 連絡先/Contact | |
| オフィスアワー/Office hours |
| 更新日/Date of renewal | 2016/08/26 |
|---|---|
| 授業のねらい /Learning Objectives |
This subject is designed for graduate students to understand basic aerospace system engineering with the following key topics; The communications in this lecture mean the technologies of not only message exchange but also the measurements of distance and velocity, location verification such as GPS, and energy transfer. They are inevitable in order to control and operate airplanes and space fliers such as rockets, deep space explorers, or space stations. The frequency extends from microwave to optical wave. You can study the system configuration, operation principle and circuit components in this course. The latest research trend will be also introduced. Aerospace vehicle technology : To understand and assess key enabling technology readiness for future Aerospace vehicle development with special emphasis on hypersonic technologies such as hypersonic propulsion, thermal materials & structure technologies, and to understand the basic vehicle design methodologies for aerospace plane. |
| 到達度目標 /Outcomes Measured By: |
It is required to understand the communications engineering which is indispensable for aerospace systems. The first objective is to acquire the over-all knowledge for the construction of a system, and the next is to learn the relation with operations of explorers such as Hayabusa. Understandings of qualitative design methodologies for future aerospace plane, accessing to Low Earth Orbit or Hypersonic Cruise Aircraft, powered by advanced propulsion systems such as airbreathing propulsion system. Especially (1) Assessment and Selection of Airbreathing / Rocket combined propulsion systems, (2) Thermal Protection System, (3) reviews of vehicle designs and (4) Basic MDO (Multidisciplinary Design Optimization) design methodologies. |
| 授業計画 /Course Schedule |
The total lecture time: 12 hours. Space Communication: No.1 The role of communications engineering in aerospace systems, and its history. No.2 Communications with a space explorer at a distance of several hundred million km. No.3 Measurement of the distance and velocity of an airplane or a rocket using a radar. No.4 Transmission of the power from space to earth. Space Transportation: No.1 Technology Readiness Assessment of key hypersonic technologies No.2 High Speed Propulsion System, system integration and performance assessment N0.3 Basic Design Methodologies of Aerospace Plane, - its characteristics and key design requirements - No.4 Basic Design Methodologies of Aerospace Plane - optimized design approach & typical vehicle designs ? |
| 成績評価方法 /Grading Guidelines |
The score of each student is evaluated by reports. A grade of more than 60% is accepted for a credit. |
| 履修上の注意 /Notices |
The unsuccessful applicant has to re-study. |
| 学習・教育目標との対応 /Learning and Educational Policy |
The acquisition of the ability to understand, evaluate and consider the principal techniques for system construction. |
| 関連科目 /Related course |
Advanced Rocket Propulsion |
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