2025Year

Second Semester

Advanced Security Design and Inverse Problem

Lecture

Advanced Security Design and Inverse Problem

Z0100002 Advanced Security Design and Inverse Problem

OGAWA Masaru

2.0Credits

Thu.3Period

Shinjuku Remote

A) A high degree of specialized expertise　100%
B) The skills to use science and technology　0%
C) The ability to conduct research independently, knowledge pertaining to society and occupations, and sense of ethics required of engineers and researchers　0%
D) Creative skills in specific areas of specialization　0%

Recently, the divergence between the structural safety and the security is a problem in mechanical engineering. First, the historical transition of the environment surrounding safety design is understood. Second, historical transition of the philosophy from the rise of science to the present is instructed, and this evolution is recognized as historical paradigm shift of our society. Third, the relationship between safety of the product and user’s security is figured out based on the paradigm shift. Moreover, students learn about the basic theory of the inverse problem and its analytical methods to be useful for mechanical design.

After active participation in this course, students will be able to:
(1) Obtain fundamental knowledge of the relationship between product safety and user's security.
(2) Understand the inverse problem and find the inverse problem in actual manufacturing.

This lecture deals with philosophical contents but knowledge of philosophy is not required. linear algebra is important to understand the inverse problem.

Discussion Debate

１. Aim and outline of this lecture. Issues on security and safety. Japanese manufacturing and individuality.
２. Historical transition of manufacturing philosophy
３. Basic structure of science and object recognition
４. Limitations of object recognition
５. The structure of awareness and relation
６. Creativity and value in engineering
７. Basic human structure and individuality based on Nishida's philosophy
８. Centralization and decentralization
９. Risk Assessment in organizations
10. Fundamentals of Inverse Problems
11. Formulation of Inverse Problems 1 (Basics of vectors and the least squares method)
12. Formulation of Inverse Problems 2 (General inverse matrix and optimization of multiple values)
13. Stabilization of solution in inverse analysis
14. Reviewing of the course
15. General comments on the assignment report

Your achievements are evaluated with your homework reports and main reports. No examination is planned.

In-class questionnaires and reports will be reviewed on individually and given general comments in class.

Not specified.

「木村敏著作集」第７巻・臨床哲学論文集，木村敏，弘文堂，2001年
「木村敏著作集」第8巻・形なきものの形を求めて，木村敏，弘文堂，2001年
「情報理工学のすすめ」，東京工業大学大学院情報理工学研究科創立10周年記念出版編集委員会，数理工学社，2005年

Tuesday 11:40〜12:30
Questions are also acceptable by email.
Email: ogawa-masaru(at)cc.kogakuin.ac.jp

In Japanese manufacturing, it is important to create something unprecedented. In this lecture, creativity in engineering is defined and the close relationship between it and ethics is logically discussed based on Nishida's philosophy. I will try to avoid the technical terms of philosophy and use everyday examples as much as possible, so even students who have never been exposed to philosophy before are welcome.

Not applicable

Mechanical Engineering Program