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Faculty of Engineering Department of Mechanical Engineering for Transportation

Future transportation,


I am the one who makes the rails.

?NEWSNotice

  • Pursuing the "superior vehicles" of the future
  • Railroad vehicle design
  • Next-generation “mobility” engineer
  • Electric car
  • aircraft
  • Pursuing the "superior vehicles" of the future
  • Railroad vehicle design
  • Next-generation “mobility” engineer
  • Electric car
  • aircraft
  • automotive engineering
  • Second-class auto mechanic
  • Small class system and plenty of experimental training
  • railway engineering
  • self-driving
  • automotive engineering
  • Second-class auto mechanic
  • Small class system and plenty of experimental training
  • railway engineering
  • self-driving
  • Pursuing the "superior vehicles" of the future
  • Railroad vehicle design
  • Next-generation “mobility” engineer
  • Electric car
  • aircraft
  • Pursuing the "superior vehicles" of the future
  • Railroad vehicle design
  • Next-generation “mobility” engineer
  • Electric car
  • aircraft
  • automotive engineering
  • Second-class auto mechanic
  • Small class system and plenty of experimental training
  • railway engineering
  • self-driving
  • automotive engineering
  • Second-class auto mechanic
  • Small class system and plenty of experimental training
  • railway engineering
  • self-driving
  • Pursuing the "superior vehicles" of the future
  • Railroad vehicle design
  • Next-generation “mobility” engineer
  • Electric car
  • aircraft
  • Pursuing the "superior vehicles" of the future
  • Railroad vehicle design
  • Next-generation “mobility” engineer
  • Electric car
  • aircraft
  • automotive engineering
  • Second-class auto mechanic
  • Small class system and plenty of experimental training
  • railway engineering
  • self-driving
  • automotive engineering
  • Second-class auto mechanic
  • Small class system and plenty of experimental training
  • railway engineering
  • self-driving
  • Pursuing the "superior vehicles" of the future
  • Railroad vehicle design
  • Next-generation “mobility” engineer
  • Electric car
  • aircraft
  • Pursuing the "superior vehicles" of the future
  • Railroad vehicle design
  • Next-generation “mobility” engineer
  • Electric car
  • aircraft
  • automotive engineering
  • Second-class auto mechanic
  • Small class system and plenty of experimental training
  • railway engineering
  • self-driving
  • automotive engineering
  • Second-class auto mechanic
  • Small class system and plenty of experimental training
  • railway engineering
  • self-driving
  • Pursuing the "superior vehicles" of the future
  • Railroad vehicle design
  • Next-generation “mobility” engineer
  • Electric car
  • aircraft
  • Pursuing the "superior vehicles" of the future
  • Railroad vehicle design
  • Next-generation “mobility” engineer
  • Electric car
  • aircraft
  • automotive engineering
  • Second-class auto mechanic
  • Small class system and plenty of experimental training
  • railway engineering
  • self-driving
  • automotive engineering
  • Second-class auto mechanic
  • Small class system and plenty of experimental training
  • railway engineering
  • self-driving
  • Pursuing the "superior vehicles" of the future
  • Railroad vehicle design
  • Next-generation “mobility” engineer
  • Electric car
  • aircraft
  • Pursuing the "superior vehicles" of the future
  • Railroad vehicle design
  • Next-generation “mobility” engineer
  • Electric car
  • aircraft
  • automotive engineering
  • Second-class auto mechanic
  • Small class system and plenty of experimental training
  • railway engineering
  • self-driving
  • automotive engineering
  • Second-class auto mechanic
  • Small class system and plenty of experimental training
  • railway engineering
  • self-driving

Creating the “superior vehicles” of the future

Become the next generation mobility engineer

In our daily lives, we use vehicles such as cars, buses, and trains to move around comfortably. As interest in SDGs increases, let's think together about what kind of "excellent vehicles" will be in the future that focus on the sustainability of the earth. For example, you can study a wide range of transportation machinery mechanisms and power systems, with a focus on automobile engineering and railway engineering, such as cars that run on ultra-low fuel consumption and 100% renewable energy, high-speed railways that enable safe, punctual, and mass transportation, and flying vehicles. , let's create the future of transportation.

 

FEATURES

  • 01

    A small class with a future perspective
    Theory/practical learning

    We place emphasis on learning through practical training and fieldwork, and you can choose practical subjects from your first year. You can learn a good balance of theory and practicality, and explore the possibilities of Society 5.0 by changing your perspective from transportation to mobility.

  • 02

    Vehicles, simulators, etc.
    Full of facilities and equipment

    It is equipped with facilities and equipment that are rare to find in a university facility, such as a chassis dynamometer and a wind tunnel experiment unit. Experience a powerful class in which you observe phenomena that occur in vehicles and wings, and measure and experiment with driving performance.

  • 03

    tailored to interests
    Course selection

    In addition to the automotive engineering course, we also offer railway engineering and transportation engineering courses, which are rare and valuable at domestic universities. Choose a course with your future in mind, such as the Automotive Engineering course, which allows you to qualify for the second-class automobile mechanic examination upon graduation.

 

COURSE INTRODUCTION

  • Automotive engineering course

    The subject of study is specialized in automobiles. Upon graduation, you will be eligible to take the national qualification for second-class automobile mechanic. The national exam pass rate is almost 100% every year!

  • Railway engineering course

    This is the only course in Japan where you can learn about railway vehicle design. Learn railway engineering from the basics and put it into practice through field work. My goal is to work in railway operation, management, and vehicle design and manufacturing!

  • Transportation machinery course

    A course to learn a wide range of vehicles. Aim to become an engineer who can contribute to safety and environmental conservation by learning welfare equipment, environmental engineering, design theory, etc.!

STUDENT'S VOICEVoices

  • Yu Kawaguchi

    YU KAWAGUCHI

    About my favorite railway
    An environment where you can learn thoroughly.

    Our department is one of the few learning environments in Japan that specializes in transportation machinery, and University General Library is stocked with valuable literature such as books on wheels. From the second year onwards, students are divided into an automobile course and a railway course to enhance their specialization. You can learn intuitively by applying physics and mathematics, and there are also fun experiments and training about railway bogies and ride comfort. In addition, many of our teachers have worked in railway companies, and they are happy to advise you on career options. In the future, I would like to pursue the research theme of railway wheel wear in Osaka Sangyo University Graduate School.

  • Maoko Matsumoto
    Mr. Miss.

    MAOKO MATSUMOTO

    Necessary for car manufacturing
    Acquire practical knowledge.

    This department, where you can study automotive engineering, was perfect for me as I love cars. During the practical training, you can experience disassembling and assembling a car while looking at the details of the brakes and engine. Particularly impressive was the ``Student Formula Project'' to build racing cars. I learned business etiquette by working as an external relations officer, and was able to participate in company information sessions sponsored by the Society of Automotive Engineers of Japan, which was useful for my job hunting. I would like to make use of what I have learned at my job offer and make my dream of supporting logistics through manufacturing come true.

 

FLOW

  • 1st year

    Basic skills development

    Study in different courses while learning the basics of mechanical engineering.

  • 2nd year

    On-site response ability training

    Deepen what you learned in your first year through exercises and practical training

  • 3rd year

    Applied skill development

    A day filled with vehicles to hone your practical skills through experience

  • 4th year

    graduation research

    Develop the qualities needed as an engineer

CURRICULUM

  1st year 2nd year 3rd year 4th year
learning goals Learn the basics of engineering in order to acquire the basic theory of transportation machinery such as automobiles and railways. Students will develop applied theories based on the basics of engineering and learn the basics of specialized technology related to transportation machinery. Choose specialized subjects such as automobiles and railways to learn about the latest technology in transportation equipment. Engage in cutting-edge graduation research and acquire the basic skills to engage in design, development, research, etc.
Practical education subjects Learning Literacy/Computer Literacy/Technical Writing 1/Technical Writing 2 Career Planning/Career Design 1 Career Design 2/Internship/Special Practical Subjects  
Specialized basic subjects Basic Mathematics and Exercises/Analysis 1/Algebra 1/Basic Physics and Exercises/Physics 1/Chemistry/Industrial Mechanics 1/Industrial Mechanics 2/Industrial Mechanics Exercises/Material Mechanics/Material Mechanics Exercises/Machine Manufacturing Methods/Materials Engineering /Transportation machinery basic training Analysis 2/Algebra 2/Industrial Mathematics/Industrial Mathematics Exercises/Physics 2/Mechanical Dynamics/CAD/Mechanical Drawing/Mechanical Design/Elements/Mechanical Systems Studies/Fluid Engineering/Fluid Engineering Exercises/Thermal Engineering/Thermal Engineering Exercises/Electrical Engineering/Computer Programming/Computational Mechanics Metal coagulation/Electrical/electronic applications/Industrial 皇冠即时比分_皇冠体育在线-【官网认证】  
Specialized applied subjects
(Automotive field)
automobile structure theory Car electronics/Automotive engineering training 1/Automotive engineering training 2 Vehicle motion control theory / Vehicle technology theory / Vehicle maintenance engineering / Vehicle dynamics / Human-vehicle system theory / Vehicle body design theory / Vehicle engineering practice 3  
Specialized applied subjects
(Railway field)
Basic railway engineering railway design Next generation railway technology/Railway maintenance/Railway equipment/Railway engineering fieldwork  
Specialized applied subjects
(Transportation field, etc.)
motorcycle engineering Traffic dynamics 1/Vehicle control engineering/Transportation machine flow science Transportation dynamics 2 / Transportation systems engineering / Traffic environment engineering / Transportation machine aerodynamics / Vehicle energy engineering / Safety engineering and engineering ethics / Transportation dynamic systems theory / Welfare equipment / Marine engineering / Aeronautical engineering / Transportation ergonomics design theory / Transportation mechanics theory /Transportation machine experiments and training/Seminar  
Graduation research subject       graduation research

PICK UP SEMINAR

  • Railway Engineering Laboratory

    While focusing on issues in boundary areas, such as the impact of the aerodynamic effects of high-speed railway vehicles on the railway-side environment, we also focus on issues such as running safety, ride comfort, driving in snowy conditions, driver support, and LRT. They are very greedy and cover a wide range of areas.

  • Transportation Human Interface Laboratory

    We are working on research on interface technology to solve problems between people and transportation machines that may arise in 10 years, and on educational methods to make transportation machines more familiar to humans.

EMPLOYMENT RECORDEmployment

Private enterprises

Automotive/automotive related

Honda Motor Co., Ltd. / Suzuki Motor Corporation / Mitsubishi Fuso Truck and Bus Co., Ltd. / West Japan JR Bus Co., Ltd. / Aisin Seiki Co., Ltd. / Akebono Brake Industry Co., Ltd. / Kyokuto Kaihatsu Kogyo Co., Ltd. / Kami Hime Bus Co., Ltd. / EXEDY Co., Ltd. / Keihin Co., Ltd. / Toyota Technocraft Co., Ltd. / Light Vehicle Inspection Association Co., Ltd. / Yanase Co., Ltd. / Autobacs Seven Co., Ltd. / Ashimori Industries Co., Ltd. / Nishio Rent All Co., Ltd./Red Baron Co., Ltd.

Railway/railway related

West Japan Railway Company / Central Japan Railway Company / Hokkaido Railway Company / Kintetsu Railway Co., Ltd. / Osaka City Transportation Bureau / Osaka Rapid Railway Co., Ltd. / Tokyo Metro Co., Ltd. / Nagoya Railway Co., Ltd. ) / Hokuriku Railway Co., Ltd. / Eizan Electric Railway Co., Ltd. / Railtech Co., Ltd. / Daitetsu Kogyo Co., Ltd. /

Manufacturing/Others

Kawasaki Heavy Industries, Ltd. / Nippon Steel & Sumitomo Metal Corporation / Komatsu Ltd. / Nidec Corporation / Fujitec Corporation / Yazaki Corporation / Daiwa House Industry Co., Ltd. / Kinden Corporation / Tokio Marine & Nichido Fire Insurance Co., Ltd. / Sompo Japan Nipponkoa Insurance Co., Ltd. / Kobelco Crane Co., Ltd. / Sankyu Co., Ltd. / NSK Co., Ltd. / Tadano Co., Ltd. / Nakakita Manufacturing Co., Ltd. / Co., Ltd. Hitachi Building Systems/Tomoku Co., Ltd.

public sector

Osaka Prefectural Board of Education/ Kyoto Prefectural Board of Education/ Wakayama Prefectural Board of Education/ Kumamoto Prefectural Board of Education/ Osaka City Hall/ Osaka Prefectural Police/ Hyogo Prefectural Police/ Ministry of Defense

Osaka Sangyo University Graduate School

Osaka Sangyo University Osaka Sangyo University Graduate School

GRADUATE'S VOICEVoices

  • Tokyo Metropolitan Bureau of Transportation

    Mr. Yuhei Ono

    YUHEI ONO

    Aspirations for the maintenance industry
    What I was able to grasp in that hand was

    I entered this department through a recommendation from a working adult, and in addition to my experience working at a company related to railway vehicle manufacturing, I wanted to acquire specialized knowledge and skills in transportation equipment. As I worked on my graduation research, my interests expanded to include unknown fields, and I developed the habit of taking the initiative in researching them. Although I had a difficult time job hunting for the type of job I wanted, Career Center taught me tips on self-evaluation and how to appeal, and as I continued to prepare for interviews, I was able to receive offers from many companies. I will continue to study hard to reach my goals.

 

LICENSE

National qualification

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

    • High school teaching license type 1 (industrial) *1

    *1 It is necessary to complete the required course credits in the teacher training course.

    Obtain entrance exam qualifications at the same time as graduation

    • Second class automobile mechanic *2

    *2 For the Automotive Engineering course only, the practical test will be waived after completing the required subject credits and completing the maintenance technology course.

  • Qualifications you would like to aim for while attending school or after graduation

    • First-class automobile mechanic *3
    • car maintenance manager
    • Professional Engineer / Assistant Professional Engineer (Mechanical Department)
    • First class, second class, third class electrical engineer
    • First class, second class electrician
    • Operation manager of passenger car transportation business
    • Operation manager of freight truck transportation business
    • Railway vehicle manufacturing and maintenance engineer
    • Internal fuel assembly technician
    • Social insurance labor consultant *4

    *3 After obtaining the second-class automobile mechanic qualification, you can obtain the qualification to take the examination after gaining practical experience (3 years or more).
    *4 You must earn at least 62 credits required for graduation requirements.

Public/private qualifications

  • Qualifications you would like to aim for while attending school or after graduation

    • CAD usage engineer exam
    • Railway maintenance engineer
    • color coordinator
    • Used car appraiser

 

POLICY

  • Educational and research objectives

    Department of Mechanical Engineering for Transportation explores a wide range of systems, including not only individual transportation machines such as automobiles, railways, aircraft, and ships, but also the control and control networks that enable them to function efficiently. Through this education and research, students will acquire the specialized ability to handle research and development and practical work related to transportation machines and their systems, as well as the ability to consider the connection between transportation machines and people from multiple perspectives and contribute to environmental issues and people's welfare. The purpose of education is to

  • Educational goals/

    three policies