Current course offerings (Application)
直近の開講科目の履修登録サイトです。以下の科目は東大の学生を対象にしています。
This is the application website for most recently offered courses.
The following courses are only for students of UTokyo.
履修希望者はUTASから履修登録をしてください。
Students who would like to take the following courses need to enroll via UTAS.
Associate Professor Ryuichi Shibasaki,
Resilience Engineering Research Center,
Department of Technology Management for Innovation, School of Engineering, UTokyo
Professor Kenji Tanaka, Department of Technology Management for Innovation, School of Engineering, UTokyo
Associate Professor Tomoya Kawasaki, Department of System Innovation, School of Engineering, UTokyo
Professor Ilkyeong Moon, Department of Industrial Engineering, Seoul National University (SNU)
履修希望者は申込フォームを提出してください。
*既にUTASで履修登録した方は再提出不要です。
Students who would like to take the following courses need to access and complete the application form for course registration and submit it.
*Students who have already registered for the course listed below via UTAS don't need to submit this form.
クリックで講義詳細をご覧になれます。
You can view the course details by clicking the link.
Attention: Students who have received credit for the following courses offered in 2021 do not receive credit for this course. Auditing is permitted.
This course is designed to provide students with a comprehensive understanding of water wave dynamics and their applications in engineering. Through the study of key concepts, students will develop the skills needed to address real-world challenges in areas such as coastal protection, ocean exploration, and environmental sustainability. By the end of the course, students will be well-prepared for careers in coastal, ocean, or environmental engineering, as well as other fields where the behavior of water waves is critical. Whether interested in shoreline protection, marine infrastructure, or environmental issues, students will gain the tools necessary to make a meaningful impact.
To introduce linear and nonlinear wave theories based on firmly established mathematics and to apply to engineering problems.
Exploring engineering aspects and fundamental principles of modeling and control theory applied to biological systems.
Students will learn how to identify, analyze, and design control strategies for biological systems.
To learn the basics of wind engineering, the connections between current wind design and performance-based seismic design, and the principles of performance-based wind design.
The current philosophy for seismic design lies on utilization of inelastic behavior of structural elements for extreme load. Whereas, wind design is based on elastic behavior for both levels of serviceability and strength. Wind load on tall buildings is so large and in some cases even exceeds the design seismic load. Hence, allowance of inelastic behavior could result in more logical and economical design and is a key to developing more resilient performance-based wind design (PBWD). In this 1-credit course, the nature of wind and seismic loads will be compared and substantial connections between components of current wind design and performance-based seismic design will be explored. Also, the basics of wind engineering such as data analysis of wind tunnel tests will be dealt with, followed by introduction to and recent development of principles of PBWD. No specific country’s codes will be used in this course. Rather, ISO (International Organization for Standardization) standards will be used when necessary.
