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Design and development
of a networked
camera system.
Design and development
of a centrifugal governor.
Systems Engineering aims to make a large-scale and complicated system be a more accessible and less hazardous system. In contrast to the other disciplines in engineering, each of which deals with a specific technological field constituting only a part of the systems, Systems Engineering is a comprehensive and synthetic study focusing on how to construct useful systems by organizing these technical components, in order to accomplish the purpose and to solve real-world problems.
To achieve a sustainable society, we must cope with problems of population growth and resource consumption, where economic activities must be conducted on the basis of environmental and resource constraints. In such a situation, interdisciplinary engineers who can take into account the comprehensive constraints in system designs are required. The Department of Systems Engineering provides with courses in three interdisciplinary fields that are highly demanded and have commonalities in their bases: Optoelectronic Systems, Information Technology, and Systems Engineering. The whole courses are divided into three corresponding "packages."
To educate interdisciplinary engineers, our department employs group learning, participatory lecture, and practical training. These methodologies aim to teach,
(A) knowledge and skills to design systems based on understanding interdisciplinary subjects,
(B) cooperativeness and communication, and
(C) activeness, initiative, and planning ability.
Number of Enrolled Students: 90 (Day Course: 90)
