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Faculty of Systems Faculty of Engineering Department of Systems Engineering

Never before


Convenience.

?NEWSNotice

FEATURES

Going beyond the traditional boundaries of engineering, students will learn systems engineering, which incorporates information systems such as programming, AI, and control as fundamental subjects and combines them with various types of hardware engineering, in seven courses that allow students to pursue specialization.
Engineers who have acquired both software and hardware skills are expected to be highly effective in the real overtime work of the future.

  • 01

    Software and hardware combined
    Study "Systems Engineering".

    feature

    Cars, trains, airplanes, rockets, and other things that were once considered "hardware" now cannot function without "software" created through programming, etc. Regardless of the course, students will learn the basics of hardware while specializing in this "information technology," which is essential for both those studying cars and those studying rockets.

  • 02

    Acquire basic expertise ×
    It is also possible to learn in a variety of ways that transcend boundaries.

    feature

    We are now in an age where "flying cars" are actually being put to practical use. We need collaboration that transcends the boundaries of technology. We have seven courses that allow you to learn specialized knowledge and skills outside of your own course, depending on your goals. For the same reason, we welcome students from liberal arts backgrounds. Combining different fields creates something new. We provide thorough support from the basics onwards.

  • 03

    Engineering-specific reading comprehension and
    Develop written expression skills.

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    Even after entering society, students will continue to collaborate with colleagues in different fields. In order to connect their technology to real social value, students will hone their communication skills and logical thinking abilities as engineers. Students will also learn reading comprehension to gain new knowledge and writing skills to output. These skills will be further improved through numerous practical training and graduation theses.

COURSE INTRODUCTION

Pursue expertise through a curriculum divided into seven courses starting from the first year

We aim to develop systems engineering that combines software (cyberspace) based on information technology such as AI with hardware (physical space) based on mechanical engineering, transportation mechanical engineering, electrical and electronic engineering, and information engineering.
Taking advantage of the know-how cultivated in traditional Faculty of Engineering including industrial machinery, aerospace, welfare, bio-machinery, automobiles, railways and other mobile machinery, semiconductors, electrical equipment, and information devices, the school offers core subjects in information technology, including programming, AI, and control, which were previously taught in individual departments.
We aim to develop talented people who understand how cyber technology (software) is used, functions, and controlled in physical space (hardware), and how it operates, and who can continue to contribute to a society that continues to evolve in the future.
The Department of Systems Faculty of Engineering places emphasis on specialization, and students are divided into seven courses starting from their first year.

STUDENT'S VOICEVoices

  • 矢野 聖紘さん

    好きな電気の分野でやりたい学びと
    将来の道を見つけた今が楽しい!

    これまで電気工学?電子工学?情報工学?通信工学の4分野を幅広く学修。入学当初は機械工学科の学生でしたが、電子情報通信工学科の岩田先生の研究室に入りたくて転科試験を受験。
    4回生の今は希望の研究室で、航空機の電動化をテーマに研究を深めています。
    転籍するほどやりたい学びに出会えて本当に充実しています。

    家電製品やモーターなどを動かすために必要な電力の変換技術?パワーエレクトロニクスの知識と技術を活かしたい。
    そう希望していたので、鉄道設備工事を手掛ける企業への就職が決まった時は本当にうれしかったです。入社後の様々な研修もしっかりと取り組み、鉄道の安全を支える技術者として第一線で活躍したいです。

    中学の授業でモーターカーを製作。その時の面白さが忘れられず、大学は電気に関連する学科を探しました。大産大への進学は、幅広い電気の学びに取り組めることが魅力で、通学に便利だったことも決め手になりました。

  • 壬生 崚太さん

    鉄道を深く学びたくて進学。
    今は交通機械を幅広く学べるのが楽しい!

    鉄道や自動車を中心に、機械の仕組みなどを総合的に学習。鉄道の専門科目は3回生から始まるので、鉄道車両の工場見学もできる「鉄道工学フィールドワーク」の受講がとても楽しみです。授業以外の時間は鉄道研究部の部長として活動。仲間と一緒に即嗨比分を企画したり、学外の主催者と打合せしたりと、毎日充実しています。

    将来は、鉄道車両の製造やメンテナンスの仕事に就いて経験を積み、安全な鉄道運行の維持に貢献したい。地元の鉄道には高校時代に毎日お世話になったので、少しでも恩返しになるような知識と技術を身につけたいと思っています。鉄道研究部も部員が増えたので、今までやったことのない新しい即嗨比分にも挑戦したいです。

    鉄道を専門的に学べる大学を探して出会ったのが大産大。日本で唯一の「鉄道工学コース」があること、鉄道学校から始まる長い歴史と実績、オープンキャンパスでの印象からも「ここしかない!」と進学を決めました。


An artificial satellite that went into space. The teacher who promoted its development was the instructor.
[Aerospace Engineering]
Our university has a history of developing rocket engines and the satellites they are equipped with. Faculty members who are also involved in joint research with JAXA will give lectures on the principles of airplane flight and the structure of jet engines. You can also learn about the latest aerospace developments, such as the main propulsion rocket engine of "Hayabusa."
Suspension, brakes...how are railway vehicles made?
[Basic Railway Engineering]
Students will learn about the fundamentals of railway systems, which cover a wide range of topics from vehicles to civil engineering, electricity, and transportation. In particular, students will learn about the specific structure of railway vehicles while being able to understand the fascinating aspects of railway engineering, which will heighten their interest from that perspective.
Learn about automobile structure and maintenance methods through practice.
[Automotive Engineering Training]
At the AMC, a specialized training facility, there are dozens of different types of cars lined up. In order to learn the basics of maintenance and how they work, students will use actual equipment to carry out training and maintenance. Students will be able to gain a practical understanding of the structure of a car, including the steering, engine, and chassis.
Aircraft are also entering the electric era. Joint research is also being conducted to put them into practical use.
[Power Electronics Laboratory]
We are conducting research into power electronics for electric aircraft, which are expected to be a major part of the future. We are researching lightweight and highly reliable DC grid systems of several tens of megawatts, proposing new power converters such as inverters, and conducting demonstration research into lightweight and highly efficient power converters.


1st year
Deepen your understanding of mathematics and physics and learn specialized fundamentals.
Students, including those from the humanities, are divided into classes according to their level of proficiency in mathematics and physics, and gradually acquire the basics. Technical writing education is also provided. Students can learn carefully in small classes. Another feature is the "Basic Transportation Machinery Training" where students can learn about automobiles, railways, and transportation systems from their first year.
2nd year
While learning about software, you will learn from specialized basics to specialized applications.
You will learn programming through Python, a general-purpose language known as the standard for AI development, and actually try to operate things. You will learn about software in general, such as introduction to AI and big data analysis, through practice. At the same time, you will also learn about hardware such as machines and materials.
3rd year
While learning about hardware, you will also gain a deeper understanding of specialized applications.
Students will learn mainly about hardware, such as control engineering, car electronics, and robotics. From the first year, students will begin to study in earnest for each course they belong to. Students will hone their applied skills in specialized fields, such as automotive motion control theory, aerospace engineering, next-generation railway technology, and semiconductor engineering.
4th year
As a culmination of their learning, they will undertake cutting-edge research.
You will work on your graduation research as a culmination of the "systems engineering" you have learned so far, including research in your specialized field and technical writing. All laboratories are practical, and collaborative research with private companies, JAXA, and overseas universities is active. There are many different fields to choose from. Please devote yourself to your specialty.

EMPLOYMENT RECORDEmployment

Private enterprises

● Aisin Co., Ltd.
● Central Japan Railway Company
● Yamazaki Baking Co., Ltd.
● Saraya Co., Ltd.
● IHI Corporation
● Sharp Corporation
Kansai Electric Power Co., Inc.

*Employment rate is the average for the Faculty of Faculty of Design Technology and the Faculty of Faculty of Engineering.

LICENSE

National qualification

  • Qualifications that can be obtained at the same time as graduation

    • 中学校?高等学校教諭一種免許状(数学)※1
    • 中学校教諭一種免許状(技術)※1
    • 高等学校教諭一種免許状(情報)※1
    • 高等学校教諭一種免許状(工業)※1
    • First-class land special radio operator*2
    • Second-class maritime special radio operator*2

    ※1 教職課程の所定科目単位の修得が必要です。
    ※2【 電気電子工学コースと情報電子工学コースが対象】認定要件および所定科目単位の修得が必要です。

  • Qualifications that allow you to take the exam at the same time as graduation

    • Second-class automobile mechanic※3
    • Telecommunications construction worker*4
    • Chief Telecommunications Engineer※5

    *3 [Applicable to Automotive Engineering Course] Only Automotive Engineering Course students will be exempt from the practical exam after acquiring the required subject credits and completing the maintenance technology training course.
    *4 Some exam subjects may be exempted if you earn the required course credits.
    *5 [Applicable to Electrical and Electronic Engineering Course and Information and Electronic Engineering Course] Even if you are currently enrolled, you may be exempt from some of the exam subjects if you earn the required course credits.

POLICY

  • Educational and research objectives

    The Department of Systems Faculty of Engineering aims to develop systems engineering that connects and fuses software based on information technology such as AI (cyberspace) with hardware based on mechanical engineering, transportation mechanical engineering, electrical and electronic engineering, or information engineering (physical space).
    While taking advantage of the strengths in the physical space that have been cultivated in the Faculty of Faculty of Engineering, such as general industrial machinery, aerospace, welfare, bio-machinery, automobiles, railways and other mobile machinery, semiconductors, electrical equipment, and information devices, information technologies such as programming, AI, and control, which have been studied separately in each department until now, are placed as core subjects. In this way, students can understand how these cyber technologies (software) are used, function, and control in the physical space (hardware), and how they work. In this way, the aim is to develop human resources who can understand physical equipment (hardware) controlled by cyber technologies (software) and contribute to real-world industry.

  • Educational goals/
    three policies