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Tokyo University of Marine Science and Technology

Acquire specialized knowledge and techniques,
As an engineer in Japan's underwater robot industry
I want to contribute to development.

Mr. Taketo NodaFaculty of Marine Engineering, Department of Maritime Systems Engineering, 4th year (at that time)

Q1. Why did you choose a department/faculty?
A practical curriculum aimed at training seafarers
During high school, I became exposed to various media such as SNS, and I began to think that I was blessed to be in a position where I was surrounded by people who taught me various things, and I was able to freely choose my career path and profession. became. So, although it wasn't a way to give back to society, I wanted to do something useful, so I started thinking about joining the Japan Maritime Self-Defense Force after graduating from high school. However, her grandfather convinced her that she should pursue a higher education, so she decided to go to university. When I was looking for a place to go to college, I knew that I wanted to learn something that would be useful in the future at university, and in particular I wanted to learn techniques related to ship operation. There, I learned about our university's Faculty of Marine Engineering, and I chose this faculty because I was attracted to its curriculum, which aims to train seafarers.

Q2. What was the good thing about choosing this department/faculty?
Extensive research on maritime affairs
In the Department of Maritime Systems Engineering, which I belong to, in addition to classroom lectures on ship navigation, operation, and regulations, there is practical training on board using training ships owned by the university and the Maritime Education Organization. Learn about ships through hands-on experience.I think that the unique curriculum of this faculty, which conducts research in a wide range of fields such as training seafarers, maritime laws, and shipbuilding technology, is a good thing.
In the second half of the third year, I learned about automatic control that allows the ship to move in the direction of the target, and based on that theory, there was a practical training to move the university's training ship.I think that working on both theory and practice has led to a deeper understanding.

Q3.What is your research theme?
Taking on the Challenge of Automatic Continuous Shooting with an Autonomous Underwater Robot (AUV)
Research on autonomous navigation of autonomous underwater robots (AUV). AUV is an underwater robot that moves without receiving instructions from the outside.In underwater where communication using radio waves is difficult, work is stored in advance and used.The AUV we are currently developing is aimed at photographing underwater structures, and we are taking on the challenge of automatically performing continuous photography that is difficult to do manually.Underwater robots, which are widely used and operated by connecting cables, can be swept away by the tide or caught on protrusions, restricting the movement of the robot.Therefore, we are working on the development of an AUV that can make decisions and act on its own without cables.It is very difficult to actually make a robot that moves underwater, but it is rewarding and very fulfilling.

how to spend the holidays

Taking advantage of the boy scout experience, to the camp.
An experience you can't get in college life.

On my days off, I often play FPS, simulation, and manufacturing games.In addition, I have been a Boy Scout since I was young, and I still go camping and hiking with my friends.When I was in middle school and high school, I didn't join club activities and went camping and hiking with the Boy Scouts almost every month.I like setting goals for myself and taking on new challenges.In my research and in my daily life, I think that I have a different experience than studying at such a school.

Q4.What is your ideal future image?
I want to contribute to the development of the underwater robot industry as an engineer.
I originally planned to become a member of the Maritime Self-Defense Force after graduating from my undergraduate degree, but after learning the joy of manufacturing through experiment exercises and seminar activities in the laboratory, I decided to continue my studies by going to graduate school. In the field of underwater robots, in addition to surveys such as deep sea exploration, underwater robots are being considered for use in various purposes such as offshore wind power generation, inspection and maintenance of submarine cables, and use in seabed resource mining. . Research is necessary to realize these goals and enrich society. Although I have not yet thought specifically about my career path after completing graduate school, I will acquire the specialized knowledge and skills necessary for research and development of underwater robots at our university, and as an engineer I will continue to develop Japan's underwater robot industry. I hope to be able to contribute to this.

Message to those aiming to enter Tokyo University of Marine Science and Technology
The Faculty of Marine Engineering is a very unique faculty, and in the Department of Maritime Systems Engineering and the Department of Marine Electronics and Mechanical Engineering, even those who do not aspire to become seafarers can take a curriculum to train seafarers. There is a lot of practical training, and we sometimes conduct experiments using equipment unique to a university that has conducted research on ships. Although there are differences depending on the department, the Faculty of Marine Engineering allows you to learn about ships and shipping from a variety of angles, including engineering content related to ships themselves, as well as maritime law and shipping systems. I believe there are many things you can learn from this department, so I encourage anyone who is interested to give it a try.