Fields of Study at the Faculty of Science and Engineering
Learn advanced technologies in fields with high social needs, from life to aerospace
In the Faculty of Science and Engineering, students can study fields that are attracting worldwide attention, such as "materials," "machines," "information," "life," and "aerospace." We aim to develop engineers with a broad perspective and international sense who can contribute to the human society in the future by providing a place to learn Practical learning and cutting-edge technology that will lead to the field while learning a wide range of basic studies thoroughly.
機械・精密システム工学科
Acquire a wide range of knowledge about mechanical engineering and specialized skills required in each field.
From the field of manufacturing with advanced equipment such as 3D CAD and 3D printers to the field of producing robots that can automatically travel on two legs, the field of environmental engineering such as environment-friendly hybrid engines, and the design of brakes and high-temperature equipment. Students practically acquire a wide range of knowledge and highly specialized techniques related to mechanical engineering, including the field of safety engineering.
Microfabrication by ultrasonic vibration cutting (manufacturing field)
Researching ultrasonic seismic cutting, which is an advantage in microfabrication technology and which is the key to manufacturing medical and information equipment. We also conduct prototype research to design ultrasonic vibration cutting equipment using CATIA.
Research on rapid prototyping (manufacturing field)
Draw graphic data with CATIA, make a styrofoam model with an NC cutting machine, and make a casting by casting a vanishing model. We will produce a prototype that normally takes more than a month in about half a day.
RT trend survey and bipedal walking robot production (robot field)
We have created a robot that can automatically travel by detecting obstacles with sensors, grasping information on the direction of travel, and automatically reaching the target point. We will improve the robot structure and control technology through trial production.
Research on electrical equipment such as motors and generators (environmental engineering field)
We conduct research to find the optimum combination of a motor and a hydrogen fuel cell, and to develop a small retrofit hybrid engine system that combines a motor and a motor vehicle.
Diesel engine combustion research (environmental engineering field)
We research the combustion of various fuels of diesel engines, which are expected to reduce CO2, low emission, low fuel consumption, and hybrid systems with diesel engines.
Vibration analysis of automobiles (safety engineering field)
Focusing on brake vibration and noise reduction technologies, we conduct research on essential for improving preventive safety performance, such as maneuverability, stability, riding comfort, self-excited vibration that expands vibration, ect.
Material strength research on the safety and reliability of high-temperature equipment (safety engineering field)
In order to ensure the safety design and reliability of equipment, we perform fatigue tests that apply multiple different loads such as twisting while pulling on a material heated to high temperature repeatedly, which is useful for safe and efficient design of high temperature equipment.
航空宇宙工学科
Learn advanced and extreme science and technology related to aerospace and acquire the ability to apply it to various fields.
The field of aerospace engineering, which can be said to be the representative of comprehensive engineering. Based on the "Mechanics 4 Mechanics Field" based on thermodynamics, strength of materials, mechanical mechanics, and fluid mechanics, students can also learn a wide range of field, not only specialized fields in aerospace engineering but also academic fields that can be applied to other fields. Students also learn knowledge "Aeronautical engineering field" to acquire knowledge of airplanes and helicopters, "space engineering field" to acquire knowledge of rockets and spacecraft, "system engineering field", "control engineering field" and "material engineering field". Furthermore, by supplementing the knowledge that cannot be obtained only from classroom lectures through practical experience in the "design / manufacturing field" and "CAE field" and practical training in experimental subjects, we develop a wide range of knowledge and application skills, as well as problem-solving ability and problem-solving ability.
Aerodynamics 3 (Mechanical system 4 Mechanics field)
In addition to the basic mechanical system 4 mechanics, students learn about high-speed aerodynamics, which is unique and indispensable in the field of aerospace engineering. This is an essential academic field for understanding the high-speed internal flow of airplanes and jet engines that fly at high speeds.
Aircraft mechanics (aviation engineering field)
Students acquire basic knowledge about the performance, stability, and maneuverability of fixed-wing aircraft by learning the basic configuration of fixed-wing aircraft, the estimation method of air force, the motion equation of the aircraft, and the motion characteristics of the aircraft.
Introduction to Rocket Engineering (Space Engineering)
Students learn basic knowledge about rocket systems such as solid rockets and liquid rockets that are indispensable for launching spacecraft, and the latest hybrid rockets, as well as ground systems required for launch.
System engineering (system engineering field)
There are various systems such as ecological systems, economic systems, production systems, and computer systems in the world. Students understand the basic idea of its mechanism, properties, and reliability, and acquire the ability to apply it to the field of aerospace engineering.
After acquiring basic knowledge about control technology that is indispensable for automation and high performance of machines and devices that exist around us and also indispensable for autopilot of aircraft and spacecraft, Students understand further knowledge by conducting computer training.
Design and drafting (design / manufacturing field)
Design ability is an extremely important for manufacturing. Students acquire the design and manufacturing capabilities necessary for manufacturing by designing and manufacturing a parachute for soft landing on Mars by yourself and evaluating the performance through a drop test.
TeikyoSat Project (CAE field)
Computer simulation is indispensable to protect the spacecraft from the harsh vibration / acoustic environment and the harsh thermal environment in outer spaceat the time of launch by a rocket . Students acquire technical skills through practice.
情報電子工学科
Learn systems for human well-being based on information science and electronics
Based on information science and electronics that support modern comfortable living, in the field of information systems, students acquire basic theories such as information theory and computer mechanism, and applications such as network setting and server construction. In the field of electronic systems, students study the design and manufacture of electronic devices, intelligent robot systems, research on welfare engineering, etc. in the latest learning environment centered on practical training and exercises.
Students practice network settings and build server functions that provide various services on the network, and acquire knowledge about network servers and techniques for building servers.
Information theory (information system field)
Students learn about information theory, which is the basic theory of technology for improving the efficiency, reliability, and safety of information transmission and storage.
Information system training 1-3 (information system field)
Students learn step by step from the mechanism of computers to information system design methods and development techniques. Finally, students actually develop a web-based information system.
Media Lab (Information Systems Field)
We have introduced 50 3D-compatible personal computers used in the information system field, and students can create 3D content yourself and check it as a stereoscopic image.
Robot sensing (electronic system field)
Students learn how intelligent robot systems measure the state of the outside world and yourself, from the basics of measurement engineering to examples of what is happening with real robots.
Electronic device (electronic system field)
Students learn the characteristics of semiconductor electronic devices, which are the basis of various electronic devices. Exercises are held from time to time during class so that students can learn while checking their progress.
Human Electronics Experiments 1-3 (Electronic Systems Field)
Students learn step by step from the basics of electronic circuits and equipment to embedded systems and robotics. There is also the task of designing the system by the students themselves.
Research on welfare engineering (electronic system field)
We develop and research medication support applications using smartphones and tablets so that families living far away can confirm that elderly people living alone whether they take medication properly.
バイオサイエンス学科
Exploring the science of life in the field of bioscience
Bioscience has a wide range of research subjects, and you can challenge various fields according to your interests and purposes. We have prepared a curriculum that allows you to learn a wide range of topics, such as the "plant field" to learn about the physiological functions of plants and biofuel production, the "microbial field" to learn the basics of life phenomena and the utilization of microorganisms, the "biotechnology field" to research related to medicine such as vaccines and artificial blood vessels, the"animal field" to elucidate the neurological pathology of developmental disorders, the "food field" to research the functionality of foods, the "chemical field" to research the creation and regeneration of substances, etc. Students develop the ability to meet the needs of society while experiencing the life sciences.
Researching the mysterious power of plants (plant field)
Students conduct research on the chemistry and physiological functions of plant hormones, grafting and repair of cut plant tissue, disease resistance induction mechanism in plants, and basic research on biofuel production using microalgae.
Elucidate the mysteries of microorganisms and utilize the power of microorganisms for society (microorganism field)
We research elucidation of the mechanism of chromosome maintenance using yeast at the molecular level, the search for physiologically active substances derived from microorganisms such as actinomycetes, development of infection control methods using bacterial viruses, etc.
Research related to medical care such as vaccines and artificial blood vessels (biotechnology field)
We conduct research on the development of "eating vaccines" that incorporate substances that act as antigens in the human body into edible plants, and research on the behavior and inner wall structure of artificial blood vessels to bring them closer to living blood vessels.
Elucidation of neurological pathology of developmental disorders (animal field)
Using various methods such as molecular biology, physiology, functional morphology, and behavioral pharmacology, we elucidate the neurological pathology of developmental disorders such as autism spectrum disease ,and develop new diagnostic and therapeutic methods.
Researching the functionality hidden in food (food field)
We research the bioregulatory effects of sphingolipids (complex lipids) contained in shiitake mushrooms and proteins derived from livestock products, and the physiological functions of avian egg metabolites.
Research on the creation and regeneration of substances (chemical field)
In the field of chemistry, we mainly research on chemical recycling that converts used plastics into new production raw materials, and chemical synthesis and structure determination of organic natural compounds such as plant hormones.
