| Program / Major | mDP | Goals |
|---|---|---|
| Advanced Mechanical Engineering | B | 機械工学の専門知識を必要とする協同作業において、他者の意見を理解し自己の役割を果たしながら、相互にコミュニケーションを取って目標を実現することができる。 |
| Advanced Mechanical Engineering | F | 産業界や社会の要請を把握して解決するべき課題を設定し、機械工学の学理を応用して異分野を含む融合分野で革新的な機能を創成することができる。 |
| Advanced Mechanical Engineering | G | 技術的課題に対して自ら積極的に追究しようとする探求心を持ち、さまざまな機会を利用して継続的に自己学修することができる。 |
To acquire research skills that enable students to independently explore solutions to unfamiliar problems using their specialized
knowledge, the objective of Graduation Research 1 is to develop the essential skills required for conducting research. These
skills include methods for literature research, basic experimental design and analysis techniques, as well as methods for
summarizing and presenting research findings.
The purpose of Graduation Thesis is to develop the ability to identify and solve problems and to summarize research results
by applying knowledge in mechanical engineering to address research topics. To acquire these problem-solving skills, it is
essential to engage in practical research activities gradually over an adequate duration of time.
In Graduation Thesis 1, as the initial step toward acquiring advanced research and problem-solving skills, students collaborate with a professor on a research topic related to mechanical engineering. During this process, they learn how to conduct a literature survey, utilize fundamental experimental, design, and analytical techniques, and effectively summarize their research outcomes.
In Graduation Thesis 1, as the initial step toward acquiring advanced research and problem-solving skills, students collaborate with a professor on a research topic related to mechanical engineering. During this process, they learn how to conduct a literature survey, utilize fundamental experimental, design, and analytical techniques, and effectively summarize their research outcomes.
- Students can communicate their opinion and explanation of the research result etc. Also, they can understand other person’s comments or questions, and discuss with professors and other students.
- Student can work cooperatively with others in the process of problem solving.
- Students can understand the background of the problem, clarify the research purpose and focus the research subjects.
- Students can utilize their expert knowledge, combine the appropriate experiments and analytical methods, and propose how to solve the problem.
- Students can examine solutions to problems by improving experimental methods, equipment, and programs, and by analyzing the results of experiments and analyses.
- Students can manage their research plan and perform by the deadline.
- Students acquire the skill for the topics and how to survey the information or the knowledge by using the Internet, etc.. Students have to learn continuously and autonomously.
| Final Exam | Total. | |
|---|---|---|
| 1. | 10% | 10% |
| 2. | 15% | 15% |
| 3. | 15% | 15% |
| 4. | 15% | 15% |
| 5. | 15% | 15% |
| 6. | 15% | 15% |
| 7. | 15% | 15% |
| Total. | 100% | - |
【Evaluation method】
Evaluate using Rubric based on research outline, research presentation, and research activity results.
1. Communication skill (Goals and objectives 1): 10 points
2. Teamwork skill (Goals and objectives 2): 15 points
3. Problem Setting Ability (Goals and objectives 3): 15 points
4. Imagination Ability (Goals and objectives 4): 15 points
5. Problem-solving ability (Goals and objectives 5): 15 points
6. Planning Ability (Goals and objectives 6): 15 points
7. Self-Study Ability (Goals and objectives 7): 15 points
Total point is 100 points.
The passing grade is 60 points or more out of 100 points.
[Evaluation Criteria]
More details of evaluation criteria, refer to the rubric to be distributed paper at the guidance.
Evaluate using Rubric based on research outline, research presentation, and research activity results.
1. Communication skill (Goals and objectives 1): 10 points
2. Teamwork skill (Goals and objectives 2): 15 points
3. Problem Setting Ability (Goals and objectives 3): 15 points
4. Imagination Ability (Goals and objectives 4): 15 points
5. Problem-solving ability (Goals and objectives 5): 15 points
6. Planning Ability (Goals and objectives 6): 15 points
7. Self-Study Ability (Goals and objectives 7): 15 points
Total point is 100 points.
The passing grade is 60 points or more out of 100 points.
[Evaluation Criteria]
More details of evaluation criteria, refer to the rubric to be distributed paper at the guidance.
Health and Human Performance Laboratory (FUKANO, Mako)
Human Machine System Laboratory (HIROSE, Toshiya)
Mechanical Dynamics Laboratory (HOSOYA, Naoki)
Physics in Multiple Extreme Conditions Laboratory (ISHII, Yasuyuki)
Biomechanics Laboratory (KAMEO, Yoshitaka)
Laboratory of Turbulent Transport Phenomena (KAWATA, Takuya)
Laser and Optical Engineering Laboratory (MATSUO, Shigeki)
Micro Robotics Laboratory (NAGASAWA, Sumito)
Intelligence Information Processing Laboratory (NAKAMURA, Shingo)
Nano-Micro Advanced Science & Technology Laboratory (ONO, Naoki)
Cognitive Linguistics & Quantitative Text Analysis Laboratory (SHINTANI, Mayu)
Computational Materials Science Laboratory (TOMITA, Yusuke)
Microdevice Creation Laboratory (YOSHIDA, Shinya)
Functional Capabilities and Design Laboratory (YOSHIHARA, Shouichirou)
Plasma and Laser Engineering Laboratory (KUWAHARA, Akira)
Biomimetics Laboratory (KOGAWA, Takuma)
Social Thermal Applications and Engineering Laboratory (YOSHIDA, Koki)
Human Machine System Laboratory (HIROSE, Toshiya)
Mechanical Dynamics Laboratory (HOSOYA, Naoki)
Physics in Multiple Extreme Conditions Laboratory (ISHII, Yasuyuki)
Biomechanics Laboratory (KAMEO, Yoshitaka)
Laboratory of Turbulent Transport Phenomena (KAWATA, Takuya)
Laser and Optical Engineering Laboratory (MATSUO, Shigeki)
Micro Robotics Laboratory (NAGASAWA, Sumito)
Intelligence Information Processing Laboratory (NAKAMURA, Shingo)
Nano-Micro Advanced Science & Technology Laboratory (ONO, Naoki)
Cognitive Linguistics & Quantitative Text Analysis Laboratory (SHINTANI, Mayu)
Computational Materials Science Laboratory (TOMITA, Yusuke)
Microdevice Creation Laboratory (YOSHIDA, Shinya)
Functional Capabilities and Design Laboratory (YOSHIHARA, Shouichirou)
Plasma and Laser Engineering Laboratory (KUWAHARA, Akira)
Biomimetics Laboratory (KOGAWA, Takuma)
Social Thermal Applications and Engineering Laboratory (YOSHIDA, Koki)
You must attend the guidance on laboratory assignments, which will be held at the end of the autumn term, as the research
content of each laboratory will be introduced.
| ways of feedback | specific contents about "Other" |
|---|---|
| Feedback in/outside the class. |
Students must satisfy the requirements for graduation thesis 1 which is mentioned in ”Handbook of Study (Faculty of Engineering)”.
- Course that cultivates an ability for utilizing knowledge
- Course that cultivates a basic interpersonal skills
- Course that cultivates a basic self-management skills
- Course that cultivates a basic problem-solving skills
| Active-learning course | Work experience and relevance to the course content if applicable |
|---|---|
| Most classes are interactive | 該当しない |
- 7.AFFORDABLE AND CLEAN ENERGY
- 9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
Last modified : Sat Apr 04 04:01:49 JST 2026