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http://www.frontier.phys.nagoya-u.ac.jp
Leadership Development Program for Space Exploration and Research
Nagoya University Program for Leading Graduate Schools
http://www.frontier.phys.nagoya-u.ac.jphttp://www.frontier.phys.nagoya-u.ac.jp
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Leading Graduate School Program
National program to promote development of world-class degree programsInternational leaders in academia, business, and government
Transcending field bordersFunded by Ministry of Education, Culture, Sports, Science and Technology
Managed by Japan Society for the Promotion of ScienceCategories
All-round (PhD Professional: Gateway to Success in Frontier Asia)Only one (The Program for Cross-Border Legal Institution Design)Multidisciplinary
Life and HealthMaterialsInformation (Graduate Program for Real-World Data Circulation Leaders)Environment (Integrative Graduate Education and Research Program in Green Natural Sciences)SafetyMulticultural Symbiotic Society (Women Leaders Program to Promote Well-being in Asia)Interdisciplinary (Leadership Development Program for Space Exploration and Research)
Started in 201121 programs were selected out of 101 in 201124 programs were selected out of 124 in 201218 programs were selected out of 102 in 2013
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Fostering Leadership in Space
Global leader to pioneer “Space, the final frontier”©Pioneer new industries related with space exploration and research
Expand utilizations and applications in SpaceIndustry leaders value broad experiences
Broad experience and solid expertise
ImplementationProblem solving
Project planning & management
Global communication skills
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Program Overview
Practical, interdisciplinary approach to space science and engineeringFundamental physicsSpace science (astrophysics, solar-terrestrial science)Space engineering
Main program offeringsSpace and technology courses to build solid expertiseLeadership development seminars and global leadership training coursesProject-based instrument development for “ChubuSat” microsatellite
Emphasis on real-world, hands-on experienceInternship at either companies or foreign research institutionsResearch grants for successful applicants
Financial support85,000 JPY/month as basic scholarshipQualified doctor-course students receive 150,000 JPY/month as full scholarshipSpecial fellowship for selected international students: 150,000 JPY/month and possible tuition support
Started in Oct, 2012
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Program Timeline (Spring Addmissions)
M1S
M1F
M2S
M2F
D1
D2
D3Certification examination
Qualifying examination
Solid expertise and broad vision
Lectures and/or short courses on space science and technology
Overview of space research and exploration
International communication, hands-on experiences and leadership development
Problem-solving skills, project management, and practical hands-on experiences
English training(if required)
Leadership development
seminar (Includes student-
organized activities)
Global leadership training course
Internship at companies and/or foreign institutions
Basics for space science
and technology, video lecture ChubuSat Instrument development projects phase 1
ChubuSat Instrument development projects phase 3
(optional)
ChubuSat Instrument development projects phase 2
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Building Solid Expertise
Basics for space science and technologyReinforce knowledge of fields
Mechanics, thermodynamics and computer programmingTailored, online resources
Video lectures for space science and technologyVideo courses on four subjects, space fundamentals, space utilization, space development, advanced technologies
Overview of space research and exploration lectures on topics including space observatories, the solar-terrestrial environment, space propulsion, advanced materials, signal processing and simulations, as well as project management and intellectual property issues
Short courses on space science and technologySatellite development and applications, satellite project management, mission development process, satellite applications (mostly commercial use), history of micro-satelliteThermal and mechanical design, analysis and hands-on trainingEngineering and technical short courses
Lectures on space science and technologySatellite systems: Detailed description of satellite subsystems (mechanical system, thermal control, power supply, communication, data handling, attitude and orbit control, reaction control), parts and material control, launch, ground systems, and operations.“Monodukuri” (engineering, crafting) lecture“高度総合工学創造実験” (Advanced general engineering laboratory course)
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Leadership Development
Leadership development seminarsSeminar and discussion on following categories coordinated by a designated faculty are given in English (in principle) on the first and third Friday. Student proposals on seminar speakers are accepted.Leadership seminars given by leaders in various fields including industries followed by discussions Interdisciplinary seminars on social matters such as government affairs, business and economy, space utilizations such as observations, exploration and manned space missions economy, human science and mass media.“Monodukuri” (engineering and crafting) seminarsStudent-organized activities such as sharing experiences with alumni in industries and discussions, exchange ideas and views on leadership between students and faculties, workshops
Global leadership training courseCombination of lectures and hands-on trainings on
international matters and international views (international affairs, businesses, law, projects and competitions, and space laws)global communication skills (cultural exchanges, negotiations and presentations) and project management and case studies
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Broad Experience
Instrument development project for “ChubuSat” microsatelliteChubuSat: a microsatellite being developed by a group of universities and aerospace industries led by Nagoya UniversityHands-on experience on satellite instrument design, testing systems and implementation
Problem solving skills, project planning and managementInternship
Funding for all students to participate in a three- to six-month “internship”Research institution outside Japan
Global communication skillsCompany
Practical research activities
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ChubuSat Instrument Development Projects
Project-based instrument development programNOT predefined laboratory work classMixture of students with different sets of interests, skills and expertise
science and engineering, theory and experimentHands-on experience on satellite instrument development
Design, testing systems and implementationProblem solving skills, project planning and management“Failure teaches success”
Phase 1 (less than 8 hours per week, 6 months)Produce a mission proposal utilizing ChubuSat* satellites including mission objectives, requirements, instrument design and operation plans
Phase 2 (less than 16 hours per week, 3 months)Instrument development or operations for ChubuSat satellites. Elect from following selections.
Fabrication and test of a prototype for a proposal in the phase 1This option takes 6 months at 8 hours or less per week
Fabrication and test of satellite component being developed for future ChubuSat satellitesGPS, expansion mechanism for solar cell panels, onboard computers with commercial parts
Operation of ChubuSat-1 satellite to be launched in early 2014Tuning of attitude control, software development for detection of wild fire
Phase 3 (optional)Development of instruments selected from phase-1 proposals be launched with future ChubuSat satellites
Students can work on any selected instruments.
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ChubuSat Project Examples
Satellite bus instrumentsImprovement of communication systems
power efficient, broadbandMission instrumentsNew commercial services using satellites
Microsatellite constellationcomplete coverage of entire Earth with modest cost
Consumer entertainmentArtificial auroraArtificial shooting star
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Program Timeline (Fall Admissions)
M1F
M1S
M2F
M2S
D1
D2
D3Certification examination
Qualifying examination
Solid expertise and broad vision
Lectures and/or short courses on space science and technology
Overview of space research and exploration
International communication, hands-on experiences and leadership development
Problem-solving skills, project management, and practical hands-on experiences
English training(if required)
Leadership development
seminar (Includes student-
organized activities)
Global leadership training course
Internship at companies and/or foreign institutions
Basics for space science
and technology, video lecture
ChubuSat Instrument development projects phase 1
ChubuSat Instrument development projects phase 3
(optional)
ChubuSat Instrument development projects phase 2
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Admission Timeline
Multiple level of financial supportsAttractive financial options for excellent students and international studentsCompetitive environment among participants
before entrance 1st 2nd 3rd
RecruitingOutreach activities in Tokyo and Osaka area to attract students from other universities w/o similar programs
Pre-screening to admit top international students~5 students per year
April10 students
September8 students 2 students
Admission of working professionals with Master degrees2 students per year
Fall admission students
Admission by interviews
September April
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Financial Supports
ScholarshipBasic scholarship: 85,000 JPY/monthFull scholarship: 150,000 JPY/month
Internship supportFinancial support for international internship up to 1.2M JPYFinancial support for internship at companies (not all companies accept international interns)
Research GrantsResearch proposals
up to 500k JPYTravel expense for international conferences
up to 300k JPYTravel expense for domestic meetings
up to 50k JPY
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Requirements for Program Completion
Minimum requirements (eligibility for basic scholarship)Required coursework (completion before D1)
Basics for space science and technology (online course)Overview of space research and exploration (2 credits and GPA above 3.3)Video lectures for space science and technology (4 videos in one course plus 2 additional videos)2 or more credits and GPA above 3.3 from lecture courses on Satellite system (2 credits) or short sources on satellite development and applications (0.5–1 credits)
Specified credits and GPA above 3.3 for each topic of leadership development seminar. Credit requirements are slightly different for international students since some of seminars are given in Japanese.Participation and GPA above 3.3 in ChubuSat instrument development projects 1,2
Students are required to retake a project if they did not meet the minimum required participation (attendance, contribution to the project)
Internships (completion before D3, international students may be exempt)More than 2 weeks per case, more than 3 months in totalA certain level of English test score is required for international internshipsInternship at foreign institutions and/or companiesGPA above 3.3
English test score (TOEFL, TOEIC or IELTS) above a certain level (to be announced)English language test is administered right after the admission and one year before graduation
Exact test dates are under considerationIf requirements are not fulfilled on time, financial aid is suspended
Financial aid is resumed after interviews upon fulfillment of requirements
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Requirements for Full Scholarship
Qualification for full scholarship is evaluated every 6 months for doctor-course studentsStudents who qualify will receive the full scholarship
4 or more credits and GPA above 3.5 from lecture courses on space science and technology
“Monodukuri” (engineering and crafting) short courses (0.5–1 credits), “Monodukuri” lecture (2 credits), 高度総合工学創造実験 (Advanced general engineering laboratory course) 2 or more credits from lecture courses on Satellite system (2 credits) or short sources on satellite development and applications (0.5–1 credits)
2 credits and GPA above 3.5 from global leadership training courseEnglish test score above a certain level (to be announced) Sum of leadership points above 3.3 (coordination of leadership development seminar, student delegates, major contributions in leading ChubuSat instrument development projects, management of student-organized activities such as student workshops and annual reviews) Participations in optional activities (company visits, LGS related symposiums, LGS forums) Internships at foreign institutions AND companies (completion before D3) and GPA above 3.5If requirements are not fulfilled on time, the scholarship will be downgraded to the basic scholarship
The full scholarship is resumed after interviews upon fulfillment of requirements
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Qualifying Examination
Students need pass qualifying examination before starting PhD researchBefore the end of 3rd year (1st year of doctor course)
RequirementsCredits and GPA for following coursework
Basics for space science and technologyOverview of space research and explorationVideo lectures for space science and technologyLecture courses on Satellite system or short sources on satellite development and applications
GPA for ChubuSat instrument development projectsGPA for leadership development seminarsMaster thesis or equivalent
Thesis proposal interviewExamination of thesis proposals by students
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Admission Policies
EligibilityGraduate students who are committed to complete a PhD course at Nagoya University
20 students are accepted every yearSpring admission: 10
Application in April, interview in May, admission in JuneFall admission: 8
Application in Oct, interview in Nov, admission in DecDoctor course admission: 2
Temporary admissionAdmission is temporary until completion of 1st year of Master courseContinuation of program is contingent upon achievements in courseworkStudents may resign during temporary admission periodBasic scholarship is provided during the temporary admission period
Special winter admissionApplication period: 12/17/2013–1/4/2014 5PM
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Last Words…
from International Advisory BoardIndustry requires new employees broad views as well as solid expertise産業界は新人に専門知識だけではなく幅広い基礎知識を要求しているIndustry is looking for smart talents with excellent 5 senses and 6th sense企業が求める人材は、頭だけでなく5感に秀でる人、第6感を使える人
It is necessary to learn from broad experiencesいろいろな経験から学ぶことが必要ChubuSat program is a good example. Learn from your own mistakes (not trivial mistakes)ChubuSatプログラムはよい例、どんどん失敗して学べばよい
Hands on experiment is important. University of Colorado provides opportunities for student to produce something by themselves as well as nominal courseworkHands on experimentが大事。コロラド大では、座学だけでなく自分の手で作れる場を与えている
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Supplemental Slides
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Introduction
Japanese space related budget is flat1/8 of US, 1/3 of EU, comparable with China/India/Canada in 2009 Space IndexExpansion of private sector and new space services is critical
Satellite service is expandingShortage of global leaders to explore and utilize space
Plan and implement new space projects
0!
1000!
2000!
3000!
1995! 2000! 2005!
その他 JAXA
0!20!40!60!80!100!
米 欧 露 日 中 加 印
人的資源 民間 政府
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2009 Futron report (Billion USD)
Futron’s 2009 Space Index
■ Satellite service■ Satellite hardware■ Launch■ Ground equipment
■ Others■ JAXA
■ Human resource■ Private sector■ Government sector
Japanese government budget (100MJPY≈M$≈M€)
US EU Ru J Ch Ca In
150
100
50
02003 2004 2005 2006 2007 2008
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/3724
講義タイトル(Lecture Title) 想定内容(key words) Lecturer
宇宙基礎1(素粒子)(Elementary Particles)
素粒子とその相互作用(Elementary particles and their interactions)久野純治J. Hisano
宇宙基礎1(素粒子)(Elementary Particles)
強い相互作用とハドロン物理(Strong interaction and hadron physics) 久野純治J. Hisano
宇宙基礎1(素粒子)(Elementary Particles) 弱い相互作用と素粒子の質量の起源(Weak interaction and origin of elementary particle
masses)
久野純治J. Hisano
宇宙基礎2(天文・宇宙)(Universe)
ビッグバン(Big bang)竹内努T. Takauchi
宇宙基礎2(天文・宇宙)(Universe)
宇宙膨張(Expansion of the universe) 竹内努T. Takauchi
宇宙基礎2(天文・宇宙)(Universe) 構造形成(Structure formation)
竹内努T. Takauchi
宇宙基礎2(天文・宇宙)(Universe)
銀河の形成と進化(Formation and evolution of galaxies)
竹内努T. Takauchi
宇宙基礎3(太陽・地球)(Solar-Terrestrial System)
太陽地球環境システムの概要(Overview of the solar-terrestrial environment system)塩川和夫K. Shiokawa
宇宙基礎3(太陽・地球)(Solar-Terrestrial System)
太陽と太陽圏(Sun and heliosphere) 塩川和夫K. Shiokawa
宇宙基礎3(太陽・地球)(Solar-Terrestrial System)
宇宙線の加速と伝搬(Acceleration and propagation of cosmic ray) 塩川和夫K. Shiokawa
宇宙基礎3(太陽・地球)(Solar-Terrestrial System) 磁気圏・電離圏・大気圏の構造とダイナミクス(Structure and dynamics of magnetosphere,
ionosphere, and atmosphere)
塩川和夫K. Shiokawa
宇宙基礎4(宇宙工学)(Space Technology)
宇宙機の分類(Spacecraft classification) 長野方星H. Nagano
宇宙基礎4(宇宙工学)(Space Technology)
宇宙機の曝される環境(Spacecraft environment) 長野方星H. Nagano
宇宙基礎4(宇宙工学)(Space Technology) 宇宙機の熱制御(Spacecraft thermal control)
長野方星H. Nagano
「フロンティア宇宙」コースワーク(ビデオ講義) 2013.2.1版
講義タイトル(Lecture Title) 想定内容(key words) Lecturer
宇宙利用1(天文衛星観測)(Astronomical Observatories in Space)
天文観測(Astronomical observations) 田島宏康H. Tajima
宇宙利用1(天文衛星観測)(Astronomical Observatories in Space)
機器開発(Instrument development) 田島宏康H. Tajima
宇宙利用1(天文衛星観測)(Astronomical Observatories in Space) 人工衛星(Satellites)
田島宏康H. Tajima
宇宙利用2(宇宙プラズマ観測)(Space Plasma Observations)
プラズマ直接観測(In-situ plasma observations) 平原聖文M. Hirahara
宇宙利用2(宇宙プラズマ観測)(Space Plasma Observations)
電磁場計測(Electric and magnetic field observations) 平原聖文M. Hirahara
宇宙利用2(宇宙プラズマ観測)(Space Plasma Observations) 惑星探査計画(Planetary exploration missions)
平原聖文M. Hirahara
宇宙利用3(地球観測)(Earth Observations)
宇宙からの大気と地球表面の観測(Observations of atmosphere and surface from space) 柴田隆
T. Shibata宇宙利用3(地球観測)(Earth Observations) 衛星観測の手法(Methods of observations by satellite)
柴田隆T. Shibata
宇宙利用3(地球観測)(Earth Observations)
衛星観測の代表的な例(Typical examples of observations by satellite)
柴田隆T. Shibata
宇宙利用4(無線システム)(Wireless Systems)
衛星通信と衛星放送(Satellite communication and broadcasting systems) 片山正昭M. Katayama
宇宙利用4(無線システム)(Wireless Systems)
衛星測位(Satellite positioning systems) 片山正昭M. Katayama
宇宙利用4(無線システム)(Wireless Systems) 衛星無線応用システム(Applications of satellite wireless)
片山正昭M. Katayama
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講義タイトル(Lecture Title) 想定内容(key words) Lecturer
宇宙開発1(宇宙輸送システム)(Space Transportation Systems)
ロケット(Rocket)佐宗章弘A. Sasoh
宇宙開発1(宇宙輸送システム)(Space Transportation Systems)
スペースデブリ(Space debris) 佐宗章弘A. Sasoh
宇宙開発1(宇宙輸送システム)(Space Transportation Systems)
大気圏再突入(Reentry)
佐宗章弘A. Sasoh
宇宙開発2(地球周回衛星)(Earth-Orbiting Spacecraft)
人工衛星の軌道運動(Spacecraft orbital motion)山田克彦K. Yamada
宇宙開発2(地球周回衛星)(Earth-Orbiting Spacecraft)
人工衛星の姿勢運動(Spacecraft attitude motion) 山田克彦K. Yamada
宇宙開発2(地球周回衛星)(Earth-Orbiting Spacecraft)
人工衛星のセンサとアクチュエータ(Spacecraft sensors and actuators)
山田克彦K. Yamada
宇宙開発3(宇宙環境・宇宙天気)(Space Environment and Space weather)
宇宙天気:その社会と経済への影響 D. N. Baker(編集:関)
宇宙開発3(宇宙環境・宇宙天気)(Space Environment and Space weather) (The impacts of space weather on society and the economy)
D. N. Baker(編集:関)
宇宙開発4(宇宙探査システム)(Space Exploration Systems)
はやぶさが挑んだ人類初めての往復の宇宙飛行、その7年間のあゆみ。そして太陽系大航海時代
川口淳一郎J. Kawaguchi(編集: 佐宗)
宇宙開発4(宇宙探査システム)(Space Exploration Systems)
(Hayabusa, its seven years voyage and another age of new discovery)
川口淳一郎J. Kawaguchi(編集: 佐宗)
講義タイトル(Lecture Title) 想定内容(key words) Lecturer
先端基盤1(材料・ものづくり)(Materials and Processing)
材料選定 (Materials selection) 梅原徳次T. Umehara
先端基盤1(材料・ものづくり)(Materials and Processing) 機能性表面創成 (Processing of smart surfaces)
梅原徳次T. Umehara
先端基盤2(光学的計測技術)(Optical Diagnostic Techniques)
希薄気体流(Rarefied gas flow) 新美智秀T. Niimi
先端基盤2(光学的計測技術)(Optical Diagnostic Techniques) 光学的計測技術(Optical diagnostic techniques)
新美智秀T. Niimi
先端基盤3(放射線計測)(Radiation Measurement)
放射線と検出器(Radiation and detectors) 幅淳二J. Haba
先端基盤3(放射線計測)(Radiation Measurement) 放射線計測システム(System integration of radiation detectors)
幅淳二J. Haba
先端基盤4(数値実験)(Numerical Simulations)
数値解析の基礎 (Basics of numerical analysis)犬塚修一郎S. Inutsuka
先端基盤4(数値実験)(Numerical Simulations)
格子を用いた流体計算法 (Computational fluid dynamics: Finite volume method) 犬塚修一郎S. Inutsuka
先端基盤4(数値実験)(Numerical Simulations)
粒子を用いた流体計算法 (Computational fluid dynamics: Particle method)
犬塚修一郎S. Inutsuka
「フロンティア宇宙」コースワーク(ビデオ講義) 2013.2.1版
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Nagoya University
One of the seven major national universities (former imperial universities)~16,000 studentsActive researches in particle physics (e.g. Kobayashi-Maskawa), high-energy astrophysics and Space engineering
Photo by Takao Aoki
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Nagoya City, Aichi Prefecture
The 3rd biggest city in Japan (1st and 2nd are Tokyo and Osaka)Industrial area of TOYOTA, Mitsubishi Heavy Industries (rockets and satellites)~30 minutes to Kyoto, ~1.5 hour to Tokyo (by Shinkansen bullet train)
© Google Maps
Nagoya
TokyoOsaka
KyotoCentral Part of the City
Nagoya Castle TV Tower
© Wikipedia
© Wikipedia
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Very Welcome!
~10% of 16,000 students are from overseas