Graduate School of Engineering, Kyushu Institute of Technology
Space Engineering International Course
( S E I C )

The purpose of SEIC - and why it does well

 Kyushu Institute of Technology (hereafter, “Kyutech”), an institute of higher education with “national-university status”, was founded in the Year 1909 in the city of Kitakyushu, Fukuoka Prefecture, Japan. Kyutech launched a new post-graduate program, the Space Engineering International Course (SEIC), in April of 2013. The primary purpose of the program is to graduate engineers who have well-honed inter-cultural communication skills and a keen sense of viewing problem-solving and solution-creation with a broad, global systems engineering perspective.

 The program offers: [1] Research under supervision of a faculty member toward a Master or Doctoral degree, [2] a series of lectures (all in English) on space engineering by faculty members, [3] Project Based Learning (PBL) through concept development in collaboration with Japanese students, and [4] “hands-on” training on space environment testing using state-of-the-art engineering facilities. The program provides the on-the-job experience necessary to acquire basic capabilities in space technology (such as satellite design). In particular, SEIC graduates will have the know-how to develop satellite-development infrastructure in their own countries through the actual testing of nano-satellites. Hence, classroom learning is a small fraction of the SEIC experience. Most of the learning here occurs through “doing” or “designing”. You would spend far more time in the lab than in the classroom. Also, the SEIC experience is extremely international. In SEIC, there are more students from overseas than from Japan. (As of October 2015, there are 18 Japanese students enrolled in SEIC while 33 foreign students from 19 countries are enrolled in SEIC.)

 Through the SEIC program, Kyutech answers the call for long-term educational opportunities for capacity building of basic space technologies made by the United Nation Office of Outer Space Affairs (UNOOSA). As well, Kyutech answers the UN call for Member States to contribute to the promotion of the peaceful and innovative use of outer space through the participation of non-space-faring nations. Our enrollment figure for international students signify the success that we are achieving for answering the UN calls.

Space Engineering Education and Research at Kyutech

 Since 1993, Kyutech has provided space engineering education to a class of approximately 30 students at the undergraduate and graduate levels under the Department of Mechanical and Control Engineering. In 2004, Kyutech established a new research and education center: The Laboratory of Spacecraft Environmental Interaction Engineering (hereafter, “LaSEINE”). LaSEINE is dedicated to R&D on spacecraft charging, hypervelocity impact, material degradation and on a wide variety of nano-satellite testing. Currently, LaSEINE is supported by nine academic staff (and three administrative staff) who work with an annual research budget exceeding one million US dollars.

 In 2010, a new research division, the Center for Nanosatellite Testing (CeNT) was added to LaSEINE. With the exception of radiation testing, CeNT provides all the environmental tests necessary for the development of small satellites (and satellite components) with size and weight up to 50cmx50cmx50cm and 50 kg. In 2011, Kyutech became a member of the International Astronautical Federation (IAF), the first among Japanese universities.

 Kyutech has various student-run space projects: nano-satellites, winged-body rockets, Can Sats, propulsion systems, Mars airplane, etc. The projects are conducted as a part of official Kyutech graduate courses to learn systems engineering through project based learning. The in-house nano-satellite project has been developing a 7kg 30cm nano-satellite, HORYU-II, since 2010. HORYU-II was tested exclusively using the facilities of CeNT. On May 18, 2012, HORYU-II was successfully launched into orbit using a JAXA H-2A rocket and has been carrying out various spacecraft-environment-related experiments in orbit since then.

Curriculum of SEIC

 SEIC is open to any student, Japanese or non-Japanese, who registers as a full-time graduate student in the Graduate School of Engineering here at Kyutech. A student who registers for SEIC belongs to one of five departments in the Graduate School of Engineering as follows: [1] Department of Mechanical and Control Engineering, [2] Department of Civil and Architectural Engineering, [3] Department of Electrical and Electronic Engineering, [4] Department of Materials Science, and [5] Department of Applied Science for Integrated System Engineering. Under supervision of a faculty member who belongs to one of these five departments, the graduate student carries out thesis work towards a Masters or Doctoral degree.
 The general requirements, such as the number of credits, thesis work, etc., to be satisfied by SEIC students are the same as other students who register for ordinary Graduate School of Engineering courses. SEIC students shall satisfy the course requirements by selecting from the subjects listed in Table 1 [this table is up-to-date as of October 2015]. The requirements for the Masters course are to obtain 30 or more credits from Subjects 1 to 22 and the requirements for the Doctoral course are to obtain 10 or more credits from Subjects 1 to 18, and from Subjects 24 to 31. Upon writing and successfully defending a Masters or Doctoral thesis, the student will be awarded a Master of Engineering or a Doctor of Engineering degree by the Graduate School of Engineering.
 Subjects 1 to 14, and 16 [see Table 1], are given as lectures. Subject 15, Space Environment Testing Workshop, is given as a laboratory workshop utilizing facilities of the Center for Nano-satellite Testing (CeNT). Subject 17, Practical System Engineering - Design is a project based learning class where students participate in a space-related project such as nano-satellite design, winged-body rocket, Mars airplane, etc. ? very often the output of this class is an entry into UNISEC’s Mission Idea Contest (MIC). Subjects 20 and 21 are mainly intended for Japanese students.
 Kyutech employs a semester system (two academic terms per year). The first (spring) semester starts on April 1st and the second (fall) semester starts on October 1st. Most Japanese students start on the first semester while most foreign students start their study on the second semester (in most countries the academic year starts in September, but not in Japan).

Admission process

 Foreign students who wish to study at SEIC shall follow the application procedure described on the Kyutech Official Website. Each year, two examinations are scheduled in July and January. The application periods are in May and December, respectively.

Fellowship opportunity (PNST)

 In October of 2012, the SEIC of Kyutech, in collaboration with UNOOSA (United Nations Office for Outer Space Affairs), was selected as a "Special Program for Priority Allocation of Japanese Government (MEXT) Scholarships". Each year from 2013 to 2017, six students (two for the Master course and four for the Doctor course) can receive a MEXT scholarship to study in the SEIC program. This scholarship (or fellowship) is managed under the framework of the United Nations/Japan Long-Term Fellowship Programme. More specifically, this scholarship is called the Post-graduate study on Nano-Satellite Technologies (PNST). The application package for the fellowship programme is available at the UNOOSA website; the relevant PNST site will come up with a Google search on “PNST Fellowship”. Note that the PNST site is fully self-contained: it contains all of the information that you need to apply, as well as the application package itself. The use of this PNST site is the only way to apply to PNST. There is no other method or route.


Please download this pdf: Space Engineering International Course - Frequently Asked Questions (FAQ). This FAQ covers the cost of enrolling in SEIC, among many other topics.

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Table 1 - Subjects of Space Engineering International Course

TitleCreditLecturerKeyword & Note
1 Space Systems Engineering Ⅰ,Ⅱ 1 each Kuniaki Shiraki*** Mission analysis and Design, System Design Approach, Systems Engineering Process and Methodology, Management
2 Introduction to Satellite Engineering 2 Mengu Cho Satellite Mission, Satelllite Subsystems, Assemby, Integrationa and Verification, Ground Segment
3 Space Environment Testing 2 Mengu Cho Space Environment, Vibration, Shock, Thermal Vacuum, Outgass, Thermal Cycle, Radiation
4 Spacecraft Environment Interaction Engineering 2 Kazuhiro Toyoda
Mengu Cho
Hideki Koshiishi*
Yugo Kimoto*
Yasuhiro Akahoshi
Spacecraft Charging, Space Weather, Space Debris, Radiation Damage, Space Tether
5 Satellite Power System Ⅰ,Ⅱ 1 each Yukishige Nozaki**,
Shiro Kawakita*,
Mitsuru Imaizumi*,
Hitoshi Naito*,
Hiroaki Kusawake*,
Mengu Cho
Mengu Cho
Power System Options, Power System Design, Solar Cell, Battery, Environmnet Effect, Solar Array, Power Control, Reliability
6 Energy Conversion and Plasma Physics 2 Kazuhiro Toyoda Plasma Physics, Particle Collision, Electrical Dishcarge, Energy Conversion
7 Spacecraft Structure and Material Ⅰ,Ⅱ 1 each Keiichi Okuyama Strucutre Dynamics, Material Strength, CFRP, Composite Material, Environment Effect
8 Advanced Space Dynamics 2 Kojyu Hiraki Orbital Mechanics, Orbit Prediction, Interplanetary Exploration, Earth Reentry
9 High-speed Gas Dynamics 2 Nobuyuki Tsuboi Compressed flow, Hypersonic Gas Dynamics, Rarefied Gas Dyanamics
10 Space Propulsion 2 Takeshi Tachibana Principles of rocket propulsion, Rocket engines, Electric propulsion, Advanced space propulsion, Propellants, Combustion
11 Advanced Course of Aerospace Guidance and Control 2 Koichi Yonemoto Guidance and Control of Aircraft, Launch Vehicle and Satellite
12 Advanced High Velocity Impact Engineering 2 Yasuhiro Akahoshi Stress Waves in Solids, Low Velocity Impact, Elastic-Plastic Stress Waves, Hypervelocity Impact Mechanics, Image Forming Instruments, Dynamics Fracture,Numerical Simulation of Impact Phenomena
13 Semiconductor Power Devices 2 Ichiro Omura Basic Equations of Semi-conductor, Power Electronics, Power Semi-conductor, PN Diode, Power MOSFET, Reliability, Space Radiation
14 Heat Transfer 2 Koji Miyazaki Convection, Conduction, Radiation, Thermo-electric Conversion
15 Space Environment Testing Workshop 1 Mengu Cho Mandatory for Master course
Vibration Test, Shock Test, EMC test, Thermal Vacuum Test, Thermal Cycle Test
16 Advanced Mechanics of Materials Ⅰ,Ⅱ 1 each Eiki Yamaguchi Material Behavior, Plasticity, Stress-Strain Relationship
17 Practical System Engineering Design Ⅰ,Ⅱ 2 each Teachers in charge Development Project Mandatory for Master course Mission and Systems Requirements, Work Breakdown Structure, Risk Analysis, Verification Matrix
18 Japanese for Beginners Ⅰ,Ⅱ 0.5 each Tomoko Ishikawa Foreign students only (mandatory)
Beginner's Japanese, Japanese Culture
19 English III 1 Ian Ruxton Japanese students only (mandatory)
Discussion, Presentation, Debate
20 Practical experience in companies or organizations Max 2 Supervisor Master course only
21 Lectures arranged by external organizations Max 2 Supervisor Master course only
22 Thesis Research for Degree 2 Supervisor Master thesis work
23 Engineering Special Experiment 2 Supervisor Master thesis work
24 Interdisciplinary Seminar of EngineeringⅠ~Ⅴ 1 each Supervisor Doctor course only
25 Interdisciplinary Seminar of EngineeringⅥ,Ⅶ 1 each Supervisor Doctor course only
26 Project Research Ⅰ(Specialty-deepening type) 1 Supervisor Doctor course only
27 Project Research Ⅱ~Ⅳ(Specialty-broadening type) 1 Supervisor Doctor course only
28 Internship(Overseas type) 2 Supervisor Doctor course only
29 Internship(Company type) 2 Supervisor Doctor course only
30 Field Research Project 2 Supervisor Doctor course only
31 Special Studies 2 Supervisor Doctor course only

Note: The subject titles are as of October 2015. They may change later.
*JAXA (the space agency of Japan)
**NEC (a major manufacturing firm in Japan)
***Nagoya Institute of Technology