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Contents - Nagaoka University of Technology

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2015
OUTLINE OF MASTER’S
PROGRAM
≪Major Fields & Research Areas≫
IN THE GRADUATE SCHOOL OF ENGINEERING
Contents
1. Mechanical Engineering ······················································ 1
2. Electrical, Electronics and Information Engineering ········· 2
3. Materials Science and Technology ······································ 3
4. Civil Engineering ································································ 4
5. Environmental Systems Engineering ·································· 5
6. Bioengineering ···································································· 5
7. Management and Information Systems Engineering ········· 6
8. Nuclear System Safety Engineering ······································ 8
9. Common courses ································································· 8
10. Academic staffs in Mechanical Engineering ······················· 9
11. Academic staffs in Electrical, Electronics and Information
Engineering ·········································································· 11
12. Academic staffs in Materials Science and Technology ······· 13
13. Academic staffs in Civil Engineering ································· 15
14. Academic staffs in Environment Systems Engineering ······ 16
15. Academic staffs in Bioengineering ····································· 17
16. Academic staffs in Management and Information Systems
Engineering ·········································································· 18
17. Academic staffs in Nuclear System Safety Engineering ······· 20
Graduate School of Engineering
Outline of Major Fields and Research Areas
1. Mechanical Engineering
Mechanical engineering covers the fields concerning development, design, production, inspection, and
maintenance of various kinds of equipments (machines), which enable to make human-life and humanwork convenient. And its main subjects are materials and strengthen, motion and control, design and
production, and energy and environment. Mechanical engineering treats equipments from large sized oil
tankers to an atomic force microscope which operates molecular transfer. Computers play very important
roles in all fields. This major studies the forefront of each subject and technology together with
management engineering subjects and cultivates the ability to find out engineering problems and to solve
them through seminars and master thesis research. This major aims to train each student to be a leading
engineer with practical competence and creativity.
Content of Courses
This major has four courses, Information and Control Engineering Course, Design and Production
Engineering Course, Human and Environmental System Engineering Course, and Materials Science and
Engineering Course.
Research Areas
Information and Control Engineering
This research area covers control engineering, measurement engineering and computer application
engineering. Control engineering deals with control theory, and visual feedback control of robots.
Measuring engineering deals with instrumentation for production, geometrical product specifications and
their verification, development of industrial standard measures, precision measurement, nanometrology
and image data handling/processing. Computer application engineering treats computational mechanics
for stress analysis of electrical packaging, paper die cutting simulation, simulation of flexible media
(papers, bank notes, tickets) handling, and so on.
Design and Production Engineering
This research area studies machine elements, machine design, material evaluation, precision
engineering, production processes, vibration and noise, and lubrication. Major research themes are
vibration and noise analysis of rolling bearings and guides, dynamic analysis of construction machines,
tribology of seals and porous journal bearings, rotating machinery vibration, laser application and laser
material processing, ultrasonic measurements and process monitoring micro-positioning of active squeeze
bearing and so on.
Human and Environmental System Engineering
This research area widely covers fields of engineering on the energy and environment relating to
human life, based on the view point of mechanical engineering, i.e., Fluids Engineering (Incompressible
and Compressible Fluid Dynamics, Computational Fluid Dynamics, Non-Newtonian Fluid Flow), Energy
and Heat Transfer, Combustion Engineering and Global Environmental Protection.
Research topics now running are: Flow-Induced Vibration, Optical-Rheometry, Heat Exchanger, Solar
Energy, Flame Instability, Chaos in Combustion, Ignition of Hydrogen, DNS and Modeling for Turbulent
Premixed Combustion, and so on.
Materials Science and Engineering
Material design/production, strength/structural analysis and measurement of physical properties and
chemical properties with respect to the following materials and the recycling towards dreamful human- 1 -
oriented society are being studied: newly developed materials such as advanced engineering ceramics,
inter-metallic compounds, non-ferrous alloys, nano-composites and ceramic-metal composites. The basic
idea
is
to
understand
the
relationship
between
microscopic
structure/texture
and
characteristics/functioning and apply this knowledge to the design of new materials and the process
control of material production. The following materials are covered: metallic materials, ceramics,
composites, inter-metallic compounds, non-ferrous alloys, heat resisting materials, environmental
coatings, and ultra-light materials. The basic stance is to combine the scientific and technological
knowledge with the design and fabrication of new materials and structures for human being.
2. Electrical, Electronics and Information Engineering
This major, on the basis of the fundamental knowledge learned during the corresponding
undergraduate course, conducts interdisciplinary and practice-oriented education at the graduate school
level through systematized cooperation with other related disciplines and aims to train leading high-level
engineers who can conduct research and development of practice-oriented electrical, electronics and
information engineering fields. The objectives of this major are directed not only toward the research and
development for the functionally organized following three courses but also to the education to incubate
the pioneering engineers who are rich in vitality, originality and service, i.e. VOS in abbreviation.
Research Areas
Energy Systems Engineering Course
Activity in this research area focuses on the following topics: new energy systems, plasma applications,
pulsed-power technology, electric power systems, energy conversion and control, motion control and
robotics, industrial and transportation systems, home appliances, and new materials for energy systems.
Research and development for enhancing and improving functionality and performance of those systems
are demanded by human society in view of reducing the global environmental load.
The energy and electric power supply systems, the hubs of the transformation and distribution of
energy, are of immense importance to our sophisticated modern society. This course has advanced its
performance due to the development of new material parts for electronic devices. In fact the demands of
society on the electric and electronic systems are becoming increasingly sophisticated, leading to
multiplying components and a deepening relation with other disciplines. In order to coincide with such
demands of modern industrial society, the important themes are how to develop electric and energy
systems anchoring an integrated relation with the other disciplines and also how to develop the electronic
devices which may be involved in such an electric power system. The continuous target of the energy
systems research field is to study and develop energy and related systems in order to support the
dynamism of modern and future society.
In this course, fundamental scholastic ability and practice-minded knowledge are cultivated through
education of the corresponding undergraduate course. Also, due to the close interrelationship with other
two courses in this major, knowledge of system application is to be deepened.
Electronic Devices and Optical Electronics Engineering Course
This research area consists of solid electronic engineering, semi-conducting material engineering,
energy transforming element engineering and opto-electronics.
Electronic devices which utilize the basic properties of semi-conductors, magnetic substances, superconductors and dielectric substances are studied with regard to their properties and functions, including
production technology, with the objective of improving the properties of electronic devices and
developing new electronic and opto-electronic devices with new technology.
Electronic engineering plays an important role in modern society, contributing to wide areas including
domestic electronic appliances, electronic computers, control devices and electronic devices for
educational and medical use. It is to be said that electronic engineering has become indispensable to every
aspect of science and technology. Therefore, it is no exaggeration to say that the future development of
- 2 -
science and technology depends on the close interrelation of electronic engineering to all other disciplines.
Because of this reasoning, great expectations are held of leading engineers to partake in the development
and production of electronic devices to support future development.
In addition fundamental scholastic ability and practice-minded knowledge are cultivated through
education of the corresponding undergraduate course. Furthermore, due to the close interrelationship with
other two courses in this major, knowledge of system application is to be deepened.
Information and Telecommunication Systems Engineering Course
This research area is concerned with studying the information and telecommunication systems which
are considered to be worthwhile in the present global age supported by the diverging evolution of the
information technology.
Activity in this research area is focused on the following disciplines: electronic computer engineering,
human information processing, mathematical informatics, digital signal processing, human interface and
sound communication systems, multi-media information processing, electric circuit theory, knowledgebased information processing, and natural language processing, and cybernetics. These research fields are
closely related to the previously mentioned two courses because the information technology may play a
crucial role as an infra-technology in the modern industrial society which requires global human
communication systems as is well appreciated nowadays. Performance-improving developments and new
proposals in these areas are among the main priorities determining the research area activity.
In similar to the above-mentioned two courses, fundamental scholastic ability and practice-minded
knowledge are cultivated through education of the corresponding undergraduate course. In addition, due
to the close interrelationship with other two courses in this major, knowledge of system application is to
be deepened.
3. Materials Science and Technology
Students majoring in Materials Science and Technology will gain a wide and deep knowledge of
materials chemistry from the fundamental to industrial viewpoints. Chemistry is the science of matter not
only on atomic and molecular levels but also on the materials level. Progress in chemistry has
introduced numerous novel materials, making breakthroughs in modern technology. Chemistry also
contributes to human beings for safe lives. The Department of Materials Science and Technology gives
students opportunities to study closely with faculty members through attractive lectures and potential
researches. We emphasize and encourage the highest degree of individual development in students.
Content of Courses
Courses are composed of four fields of materials chemistry: materials analysis, inorganic materials,
organic materials, and molecular design, which are based on physical, inorganic, organic, and polymer
chemistry.
Research Areas
Materials Analysis Engineering
Knowledge of materials analysis is indispensable for new material construction and its characteristic
evaluation. This research area covers reaction kinetics, electrochemistry, sonoprocess and its chemistry,
analytical chemistry, plasma chemistry, catalysis and surface chemistry, and polymer physical chemistry
and engineering. The research efforts are currently focused on studies of reaction mechanism concerning
photocatalysis and catalytic reaction at solid surface. Researches on electrode reaction, fuel cells,
secondary batteries and high-resolution molecular spectroscopy of free radicals in plasma and its CVD
processing are also performed. Progress on new-sophisticated materials having intelligent functionality is
seen attractively using nanotechnology as molecule recognition materials for separation process and
liquid crystals for its device application.
- 3 -
Inorganic Materials Engineering
Inorganic materials such as optical fibers, ceramics, magnetic materials, thin films and new glasses are
key in leading technologies including electronic, energies and opto-telecommunication. The research area
covers new synthetic methods, property evaluation and structural analysis of new inorganic functional
materials. Specific research topics in progress include high performance ceramics, magneto-optics
nonlinear optical glasses and crystals, synthesis of thin films, ultra-fine powders and computer simulation
for material design.
Organic Materials Engineering
Polymeric materials are fundamental matters supporting our daily lives and industry, because of their
superiority in strength/weight ratio, process ability, chemical stability and cost performance. This research
area develops polymer science from basic to practical standpoints. Research is in progress on new
polymer synthesis, precision synthesis of model polymers, structure and properties of multiphase
polymers having various molecular architectures, polymer blends and alloys, crystalline and liquidcrystalline polymers, polymer ionics, polymer gels, polymer composites, filled rubber, functionalization
of natural rubber, and nonlinear rheology.
Molecular Design Engineering
This research group is engaged in basic and applied research on the development of organic specialty
materials with specific functionality and high performance, such as pharmaceutical drugs, agrochemicals,
and materials for record and display of information, through highly selective methods in organic synthesis
as well as sophisticated molecular design and simulation.
4. Civil Engineering
Civil engineering is the discipline of construction of the infrastructure which helps mankind to
maintain a highly developed civilization while securing harmony with the natural environment, and this
major aims to create new technology which can solve construction-related problems with a wide view and
deep insight from the standpoint of earth engineering.
Therefore, this major instructs students in high-level technology in each area through lectures,
experiments and training and, at the same time, offers a chance to study interdisciplinary areas and
management and planning, which form essential knowledge for engineers.
Thus, this major aims to train civil engineers who can solve practical problems from a wide viewpoint.
This major is divided into three research areas called Planning and Environmental Engineering,
Water and Disaster Control Engineering, and Structural Engineering.
Content of Courses
Understanding that construction works, as they become large-scaled, have a grave impact on human
society and the natural environment, courses offered fully take into account various effects and impacts of
construction and are woven under an integrated view.
Research Areas
Planning and Environmental Engineering
This research area is composed of two groups: the transportation engineering group and the
environment and disaster prevention engineering group. The former studies advanced technology for
construction and maintenance of paved roads such as porous asphalt and the use of deflection detecting
machines. The latter group studies advanced technology for hazard evaluation and disaster prevention
work related to earthwork against rainstorm and earthquake.
Water and Disaster Control Engineering
This research area is composed of two groups: the water engineering group and the geotechnical
- 4 -
engineering group. Two groups study characteristics of disaster-causing natural phenomena and carry out
basic and applied research on the modern development of infrastructure. River engineering, coastal
engineering, soil engineering and tunneling engineering are some of the topics covered.
Structural Engineering
This research area is composed of the following two groups: structural analysis and construction
material engineering. The former studies the basic aspects of structural analysis and the development of
computer simulation techniques for various structures, while the latter studies the fracture mechanism,
durability and antiseismic technology of concrete structures.
5. Environmental Systems Engineering
Today’s environmental problems have grown to be truly global, in every respect. They have become
monumental, not just in terms of geographic extent but also in their complexity, their interactive nature,
and the time scale that problems encompass. There is a need to consider these environmental problems as
one interdisciplinary field. As such, there exists a need to address these problems by educating engineers
who can deal with them using an integrated approach.
With this approach as the basic concept, this major offers an education which is truly interdisciplinary
and far-reaching in its understanding of environmental problems. Therefore, this major admits students
from any field of engineering.
Content of Courses
Courses offered correspond to the three research areas of this major, namely Global Information
Engineering, Environmental Protection Engineering and Environmental Planning and Social Engineering.
Research Areas
Global Information Engineering
This research area studies the global water and energy cycle, fully utilizing satellite remote sensing
data and high-speed, large sized computers. Also, all aspects of environmental modeling, including that of
the biosphere are the concern of this research area.
Environmental Protection Engineering
This research area studies advanced wastewater treatment, eutrophication and its countermeasure in
natural water bodies, treatment technology of solid and hazardous wastes, and environment-oriented
production process technology.
Environmental Planning and Social Engineering
This research area studies national, regional and urban planning focusing on land use analysis and
policy, transportation systems analysis and planning, and urban environment management such as
environmental impact assessment, economic evaluation and public involvement.
6. Bioengineering
Bioengineering is a transdiciplinary field that integrates various engineering and biological principles.
Rapidly-expanding information and technologies in life and physical sciences create critical and unique
opportunities for bioengineers to make a significant impact on human health and environmental
sustainability, two of the greatest challenges in our world. Research in this field is aimed at developing
and applying biological molecules and systems to solve a broad spectrum of health, industrial and
environmental problems. Utilizing engineering analysis and design to deal with medical and other societal
needs is the other research area of this field. Biological molecules and systems are efficient and
successful, but highly complex. Therefore, understanding biological molecules and systems is also an
important part of our research activity.
- 5 -
The current research in our department exploits new developments in biomolecular science and various
technologies to advance fundamental understanding of how biological molecules and systems operate and
to develop effective designs and tools for medical practice, industrial application and bioremediation of
environmental problems. The research topics of faculties range from molecular structure to direct
diagnostic applications.
Content of Courses
The goal of our educational program is to generate a next generation of capable engineers and
researchers. The stuff members with diverse expertise and background provide various educational and
research opportunities, leading to a master or Ph.D. degree. Participating students will receive rigorous
research and intellectual training in their selected research focus in a highly interactive environment that
facilitates a fusion of various scientific disciplines and ideas that promotes scientific discovery and new
technologies.
Research Areas
Bioenergetics
Research topics in this area include molecular motors, molecular evolution, bioelectronics, biosensors
and biopolymer energetic. These studies are aimed at elucidating the structural and functional basis of
biomolecular machineries. The research goals in this area also include the development of hybrid
materials and polymers between biological and synthetic products to take advantage of the sensitivity and
specificity of biomolecules in devices for diagnosis and other purposes.
Bioinformation
This area covers a wide range of research topics for biological information and its processing. It deals
with genetic information, cellular signaling, and neuronal and physiological regulation of organisms.
Specific research topics comprise of synapse formation, neuronal projection, membrane excitability, cell
division and cell adhesion. These studies use cultured cells, tissues and animal models to elucidate the
role of individual molecules and processes in a more complex system. Other emphasis of this research
area is to develop new designs, molecules and devices for clinical and diagnostics applications.
Biomaterials
The research in this area is concerned with structural and functional basis of biomolecules, identification and
generation of useful species, and the utilization and optimization of organisms and biomolecules for biomass
conversion. Research topics include protein folding and thermodynamics, computational analysis of
biomacromolecules, enzyme engineering for biomass utilization, biodegradation of pollutants, and breeding and
genetic engineering of plants.
7. Management and Information Systems Engineering
It is clear that Information & Communication Technology(ICT) is transforming not only ways of doing
business but also the basis of society as we know it and that it will increasingly be the key to the creation
of successful and competitive businesses in the future.
However, the successful transition to the new information society will require not only the
development of groundbreaking new information technology itself but also the expertise to take full
advantage of the strategic potential of information technology. Although leading the world in many areas
of electronics, data processing and communication technology, Japan lags behind in the application of
ICT to creation of innovative new management and social systems. This situation is undoubtedly due in
large part to a shortage of highly-skilled manpower with sufficient mastery of the new technology to
develop new applications for the design, implementation and control of management information systems.
The objective of this Department is to study management information systems and to train specialists
with the expertise knowledge and skills necessary to develop the vast potential of management
information technology and to do so with an appreciation of socioeconomic environment of the real world.
- 6 -
Such expertise is necessary to imagine totally new and different social structures and to develop
innovative ways of organizing and managing businesses.
Research Areas
Management Information Systems
Courses offered in this area deal with the development of models of information systems for managing
different kinds of organizations, and the design and development of management information systems
based on needs analysis and assessment. They also cover the implementation and control of management
information systems. This includes advanced methods for analyzing and synthesizing complex systems,
constructing human-centered systems, developing intelligent information processing to handle highlysophisticated communication, designing information systems focused on various aspect of management in
business, manufacturing and safety in social infrastructure. The courses aim to nurture students with the
ability to design, implement and control management information systems.
Management Systems Engineering
The courses offered in these area cover the strategic discussions aspects of the international
management of energy and environment in the global economy. They also deal with information systems
planning using contemporary modeling techniques to deal with and take advantage of the dynamically
changing business environment and win global competition. The courses also provide the students with
techniques for applying up-to-date ICT for business innovation and implementation techniques with
quality management. Information systems planning includes management of information security which is
fundamental in an information society and application of universal design. Which is of increasing
importance in a rapidly aging society. Management systems cover the mission-critical aspects of
corporate management systems.
Socioeconomic Systems
We live in an information society. Nagaoka University of Technology is only one of the universities
which have only a single faculty(-engineering) but it is unique in that it has a Department of Management
and Information Systems Science which offers a comprehensive and integrated approach to learning with
courses in both natural & social sciences. The teaching staffs of the Socioeconomic Systems stream come
from a wide range of backgrounds―some with practical experience in law, politics and journalism and
others with an academic background in management, so students have access to a wealth of knowledge
and experience. This stream aims to deepen and broaden students’ knowledge in their chosen field and to
nurture resourceful graduates with a flexible mindset.
Development of International Business Systems
Courses are based on management science and systems engineering and also deal with the international
political and economic context, methodologies and strategies for international development projects, and
system design to promote technological development and the growth of global business.
Educational Information Engineering
Courses mainly deal with learning theory, instructional design using multi-media ICT for higher
education, and evaluation of teaching. To improve the effectiveness of learning, this stream is involved in
research and application in the following areas.
(1)
(2)
(3)
(4)
(5)
Interactive communication using electronic media.
Development of automatic mentoring systems
Adaptation of image processing technologies to actual learning situations
Assuring tree educational quality of e-learning material and courses.
On-line testing systems
Life Support Technology and Medical Informatics
Courses are mainly based on sports engineering, life support technology, medical informatics, special support
education, and other issues related to the aging society and the barrier-free society.
- 7 -
8. Nuclear System Safety Engineering
Research Areas
Safety Technology
This course will provide instruction and research in the key areas necessary for maintaining nuclear
safety, including the safe use of radiation, back-end systems, nuclear fuel engineering, radiochemistry,
seismic safety technology system engineering, and radiation monitoring. After outlining nuclear safety
engineering, lectures will be held on the chemical and biological aspects of nuclear safety, the nuclear
fuel cycle and control of radioactive waste, back-end engineering (decommissioning of plants, disposal of
depleted fuel, etc.), seismic safety assessment, and radiation monitoring.
Safety Management
This course will provide instruction and research on topics necessary for examining all possible
circumstances and reducing the risks that are below tolerable levels by using the system safety approach,
including safety management, risk evaluation, technical communication, nuclear safety legislation,
maintenance engineering, and maintenance system control. In addition to lectures in such key system
safety topics as engineering ethics, safety management, and risk evaluation, instruction will also cover
technical communications, nuclear safety legislation, maintenance systems, and the like.
Energy Science and Technology (Energy GIGAKU)
This course will provide instruction and research for students with specialist knowledge of key topics
in the use of nuclear power, such as mechanical, electrical, and electronic engineering; communications;
materials science; construction and biology in the production of radiation; reactor engineering; nuclear
power systems; nuclear fusion systems; and structural and materials engineering related to nuclear power.
Lectures will also be presented on the key principles of nuclear power technology, such as the use of
radiation, the physics of reactors, structural and materials engineering as they relate to nuclear power and
nuclear power systems, and their management and maintenance.
9. Common courses
(1) Principles of common courses at our university
Development of highly intellectual and knowledgeable individuals, capable of leading a knowledgebased society supported by advanced information and technology, is necessary for the solution of
various problems faced by mankind, such as global environmental issues, population growth, and ethnic
conflicts, as well as the various problems faced by Japan, such as the declining birthrate and aging
population, industrial restructuring, and decreasing social vitality. With the objective of nurturing
these knowledgeable individuals, the master’s program at our graduate school offers common courses in
various knowledge areas that promote the superior intellectual ability, social and international
perspectives, and management ability necessary for applying and implementing technology in society, in
combination with specialized knowledge and skills. Courses are classified into 3 course areas,
specifically, intellectual ability development courses, social and international perspective development
courses, and management ability development courses. All are elective courses, and at the minimum 6
units of common courses must be completed.
(2) Course classifications are as follows.
1) Intellectual ability development courses: These courses aim to nurture technical experts capable of
supporting a knowledge-based society by developing superior intellectual ability based on firm ideas
and philosophy, and enables rational and flexible understanding, consideration, and expression of
matters. Knowledge will also be empirically obtained through practice of technology. Subject areas
include mathematical and natural sciences, logic and communication, systems and information, and
human studies.
2) Social and international perspective development courses: These courses aim to nurture the
fundamental ability to understand interrelationships between technology and various social situations
- 8 -
surrounding technology, from a multi-aspectual and international perspective. Society creates a need
for technological development, while technology exerts multi-aspectual and global effects on humans,
lifestyle, industry, society, environments, and other factors. Practice of technology requires provision
of information regarding effects on society, and society manages the practice of technology to inhibit
the predicted negative effects. Subject areas include society, industry, and international perspectives.
3) Management ability development courses: These courses aim to nurture the ability to manage the
operating resources of corporations and other organizations to enable the use of the merits of the
technology, by adequately determining relationships between technology and the situations of
corporations and other organizations planning to utilize it. Corporations demonstrate the need to
develop the practice of technology, while the practice of technology itself results in profit (or loss)
and benefits (or disadvantages) for corporations. The practice of technology provides information
regarding effects on business management, and business management involves management of the
practice of technology under given restrictions. Subject areas include technology management,
business management, and human resource development.
大学院工学研究科修士課程 Graduate School of Engineering(Master's Program)
1.機械創造工学専攻 Mechanical Engineering
(1)機械情報・制御工学 Information and Control Engineering group
職 名
氏 名
研 究 室 等
教 授
Professor
明田川 正 人
AKETAGAWA, Masato
ナノメートル・ピコメートル計測制御研究室
Nanometer & Picometer Measurement Control Laboratory
教 授
Professor
上 村 靖 司
KAMIMURA, Seiji
雪氷工学研究室
Snow & Ice Engineering Laboratory
教 授
Professor
教 授
Professor
古 口 日出男
KOGUCHI, Hideo
永 澤
茂
NAGASAWA, Shigeru
教 授
Professor
柳
和 久
YANAGI, Kazuhisa
准教授
Associate Professor
木 村 哲 也
KIMURA, Tetsuya
計算力学研究室
Computational Mechanics Laboratory
計算力学支援・塑性加工研究室
Intelligent Supportology for Engineering Computation,
Plastics Technology
加工計測・機能性評価研究室
Laboratory for Industrial metrology and Function
optimization
レスキュー工学研究室
Rescue Engineering Laboratory
准教授
Associate Professor
倉 橋 貴 彦
KURAHASHI, Takahiko
計算力学研究室
Computational Mechanics Laboratory
准教授
Associate Professor
小 林 泰 秀
KOBAYASHI, Yasuhide
騒音・振動制御工学研究室
Noise and Vibration Control Laboratory
准教授
Associate Professor
平 田 研 二
HIRATA, Kenji
制御システム研究室
Control Systems Laboratory
助 教
Assistant Professor
韋
冬
WEI, Dong
ナノメートル・ピコメートル計測制御研究室
Nanometer & Picometer Measurement Control Laboratory
助 教
Assistant Professor
田 中 秀 岳
TANAKA, Hidetake
加工計測・機能性評価研究室
Laboratory for Industrial metrology and Function
optimization
- 9 -
(2)創造設計・生産工学 Design and Production Engineering group
職 名
氏 名
研 究 室 等
教 授
Professor
阿 部 雅二朗
ABE, Masajiro
機械・環境系設計工学研究室
Machine-Environment System Design Engineering
Laboratory
教 授
Professor
伊 藤 義 郎
ITO, Yoshiro
レーザー応用工学研究室
Laser Application Engineering Laboratory
教 授
Professor
井 原 郁 夫
IHARA, Ikuo
超音波・非破壊センシング研究室
Ultrasonic sensing and nondestructive evaluation
Laboratory
教 授
Professor
太 田 浩 之
OHTA, Hiroyuki
機械要素研究室
Laboratory of Machine Elements
教 授
Professor
金 子
覚
KANEKO, Satoru
トライボロジー研究室
Tribology Laboratory
教 授
Professor
田 辺 郁 男
TANABE, Ikuo
加工・生産工学研究室
Laboratory for Machining & Production Engineering
准教授
Associate Professor
磯 部 浩 己
ISOBE, Hiromi
精密加工・機構研究室
Precision Machining, Mechanics Laboratory
准教授
Associate Professor
田 浦 裕 生
TAURA, Hiroo
トライボロジー研究室
Tribology Laboratory
講 師
Associate Professor
藤 野 俊 和
FUJINO, Toshikazu
助 教
Assistant Professor
田 邉 里 枝
TANABE, Rie
機械・環境系設計工学研究室
Machine-Environment System Design Engineering
Laboratory
レーザー応用工学研究室
Laser Application Engineering Laboratory
助 教
Assistant Professor
松 谷
巌
MATSUYA, Iwao
超音波・非破壊センシング研究室
Ultrasonic sensing and nondestructive evaluation
Laboratory
(3)人間環境システム工学 Human and Environmental System Engineering group
職 名
氏 名
研 究 室 等
教 授
Professor
青 木 和 夫
AOKI, Kazuo
熱工学研究室
Thermal Engineering Laboratory
教 授
Professor
東
信 彦
AZUMA, Nobuhiko
雪氷研究室
Laboratory for Snow and Ice Studies
教 授
Professor
門 脇
敏
KADOWAKI, Satoshi
燃焼学,システム安全研究室
Combustion, System Safety Laboratory
教 授
Professor
高 橋
勉
TAKAHASHI, Tsutomu
液体工学研究室
Fluids Engineering Laboratory
准教授
Associate Professor
鈴 木 正太郎
SUZUKI, Masataro
反応性流体工学研究室
Laboratory of Reactive Fluid Engineering
准教授
Associate Professor
山 崎
渉
YAMAZAKI, Wataru
計算流体工学研究室
Computational Fluid Dynamics Laboratory
准教授
Associate Professor
山 田
昇
YAMADA, Noboru
エネルギー工学研究室
Energy Engineering Laboratory
- 10 -
助 教
Assistant Professor
勝 身 俊 之
KATSUMI, Toshiyuki
燃焼工学研究室
Combustion Laboratory
助 教
Assistant Professor
高 田 守 昌
TAKATA, Morimasa
雪氷研究室
Laboratory for Snow and Ice Studies
助 教
Assistant Professor
吉 武 裕美子
YOSHITAKE, Yumiko
液体工学研究室
Fluids Engineering Laboratory
(4)材料システム工学 Materials Science and Engineering group
職 名
氏 名
研 究 室 等
教 授
Professor
岡 崎 正 和
OKAZAKI, Masakazu
耐熱材料工学研究室
Materials Technology Laboratory for High Temperature
Applications
教 授
鎌 土 重 晴
Professor
KAMADO, Shigeharu
教 授
Professor
武 田 雅 敏
TAKEDA, Masatoshi
先端軽金属材料研究室/
高性能マグネシウム工学研究センター
Advanced Light Metals Laboratory/ Research Center for
Advanced Magnesium Technology
材料物性研究室
Laboratory of Materials Science & Engineering
准教授
Associate Professor
南 口
誠
NANKO, Makoto
高温材料研究室
High Temperature Materials Laboratory
准教授
Associate Professor
本 間 智 之
HOMMA, Tomoyuki
ナノ・原子レベル解析研究室
Nano & atomic scale analysis Laboratory
准教授
Associate Professor
助 教
Assistant Professor
宮 下 幸 雄
MIYASHITA, Yukio
山 下
健
YAMASHITA, Ken
材料強度・接合強度研究室
Strength of advanced materials and joints
材料加工研究室
Advanced material machining
2.電気電子情報工学専攻
Electrical, Electronics and Information Engineering
(1)エネルギーシステム工学 Energy Systems group
職 名
氏 名
研 究 室 等
教 授
Professor
大 石
潔
OHISHI, Kiyoshi
モーションコントロール研究室
Motion Control Laboratory
教 授
Professor
近 藤 正 示
KONDO, Seiji
電力制御研究室
Power Control Laboratory
教 授
Professor
原 田 信 弘
HARADA, Nobuhiro
プラズマ力学研究室
Plasma dynamics Laboratory
准教授
Associate Professor
伊 東 淳 一
ITOH, Junichi
パワーエレクトロニクス研究室
Power Electronics Laboratory
准教授
Assistant Professor
佐々木
徹
SASAKI, Toru
プラズマ力学研究室
Plasma Dynamics Laboratory
准教授
Associate Professor
宮 崎 敏 昌
MIYAZAKI, Toshimasa
メカトロニクス研究室
Mechatronics Laboratory
- 11 -
助 教
Assistant Professor
高 橋 一 匡
TAKAHASHI, Kazumasa
プラズマ力学研究室
Plasma Dynamics Laboratory
助 教
Assistant Professor
芳 賀
仁
HAGA, Hitoshi
電力制御研究室
Power Control Laboratory
助 教
Assistant Professor
横 倉 勇 希
YOKOKURA, Yuki
モーションコントロール研究室
Motion Control Laboratory
(2)電子デバイス・光波エレクトロニクス工学 Electronic Devices and Optical Electronics group
職 名
氏 名
研 究 室 等
教 授
Professor
小 野 浩 司
ONO, Hiroshi
応用波動光学研究室
Applied Waveoptics Laboratory
教 授
Professor
河 合
晃
KAWAI, Akira
ナノ・マイクロシステム工学研究室
Nano-Micro System Engineering Laboratory
教 授
Professor
安 井 寛 治
YASUI, Kanji
半導体工学研究室
Laboratory of semiconductor engineering
教 授
Professor
内 富 直 隆
UCHITOMI, Naotaka
機能性半導体工学研究室
Functional Semiconductor Engineering Laboratory
准教授
Associate Professor
岡 元 智一郎
OKAMOTO, Tomoichiro
電子セラミック研究室
Electroceramics Laboratory
准教授
Associate Professor
加 藤 有 行
KATO, Ariyuki
准教授
Associate Professor
木 村 宗 弘
KIMURA, Munehiro
光物性・テラヘルツ工学研究室
Optoelectronic materials and terahertz engineering
Laboratory
液晶デバイス研究室
Liquid Crystal Display Laboratory
准教授
Associate Professor
田 中 久仁彦
TANAKA, Kunihiko
レーザー応用工学研究室
Laser Application and Engineering Laboratory
准教授
Associate Professor
中 山 忠 親
NAKAYAMA, Tadachika
極限エネルギー密度工学研究センター
Extreme Energy-Density Research Institute
助 教
Assistant Professor
加 藤 孝 弘
KATO, Takahiro
機能性半導体工学研究室
Functional Semiconductor Engineering Laboratory
助 教
Assistant Professor
玉 山 泰 宏
TAMAYAMA, Yasuhiro
半導体工学研究室
Laboratory of semiconductor engineering
産学融合特任准教授
佐々木 友 之
Specially Appointed
SASAKI, Tomoyuki
Associate Professor for
Academia-Industry Fusion
電磁波制御デバイス研究室
Electromagnetic Wave Control Device Laboratory
(3)情報通信システム工学 Information and Telecommunication Systems group
職 名
氏 名
研 究 室 等
教 授
Professor
岩 橋 政 宏
IWAHASHI, Masahiro
画像情報システム研究室
Image Processing System Laboratory
教 授
Professor
中 川 健 治
NAKAGAWA, Kenji
ネットワーク特性評価研究室
Laboratory of Network Performance Evaluation
- 12 -
教 授
Professor
中 川 匡 弘
NAKAGAWA, Masahiro
カオス・フラクタル情報数理工学研究室
Chaos & Fractals Informatics Laboratory
教 授
Professor
山 崎 克 之
YAMAZAKI, Katsuyuki
情報ネットワーキング研究室
Information Networking Laboratory
教 授
Professor
和 田 安 弘
WADA, Yasuhiro
神経情報処理研究室
Neural Information Processing Laboratory
准教授
Associate Professor
圓 道 知 博
YENDO, Tomohiro
空間映像メディア研究室
Spatial image media Laboratory
准教授
Associate Professor
杉 田 泰 則
SUGITA, Yasunori
信号処理応用研究室
Signal Processing Application Laboratory
准教授
Associate Professor
武 井 由 智
TAKEI, Yoshinori
算法・計算論研究室
Laboratory of Algorithms and Computation Theory
准教授
Associate Professor
坪 根
正
TSUBONE, Tadashi
非線形システム工学研究室
Nonlinear System Engineering Laboratory
准教授
Associate Professor
山 本 和 英
YAMAMOTO, Kazuhide
自然言語処理研究室
Natural Language Processing Laboratory
助 教
Assistant Professor
南 部 功 夫
NAMBU, Isao
神経情報処理研究室
Neural Information Processing Laboratory
助 教
Assistant Professor
白 清
学
HAKUSEI, Manabu
カオス・フラクタル情報数理工学研究室
Chaos & Fractals Informatics Laboratory
助 教
Assistant Professor
谷内田 昌 寿
YACHIDA, Masatoshi
カオス・フラクタル情報数理工学研究室
Chaos & Fractals Informatics Laboratory
助 教
Assistant Professor
山 本
寛
YAMAMOTO, Hiroshi
情報ネットワーキング研究室
Information Networking Laboratory
助 教
Assistant Professor
吉 田 太 一
YOSHIDA, Taich
画像情報システム研究室
Image Processing System Laboratory
助 教
Assistant Professor
渡 部 康 平
Watabe, Kouhei
ネットワーク特性評価研究室
Laboratory of Network Performance Evaluation
助 教
Assistant Professor
和 田 森 直
WADAMORI, Naoki
カオス・フラクタル情報数理工学研究室
Chaos & Fractals Informatics Laboratory
産学融合特任准教授
王
龍 標
Specially Appointed
WANG, Longbiao
Associate Professor for
Academia-Industry Fusion
音声情報処理研究室
Speech information processing Laboratory
3.材料開発工学専攻 Materials Science and Technology
(1)材料解析工学 Physical and Analytical Chemistry group
職 名
氏 名
研 究 室 等
教 授
Professor
梅 田
実
UMEDA, Minoru
ケミカルデバイス研究室
Chemical Devices Laboratory
教 授
Professor
小 林 高 臣
KOBAYASHI, Takaomi
機能材料解析工学研究室
Laboratory of Intelligent Materials for Chemical Analysis
Engineering
- 13 -
准教授
Associate Professor
伊 藤 治 彦
ITO, Haruhiko
准教授
Associate Professor
今久保 達 郎
IMAKUBO, Tatsuro
分子・プラズマ物理化学研究室
Laboratory of Physical Chemistry for Molecules and
Plasmas
超分子物性化学研究室
Laboratory of Supramolecular Solid State Chemistry
准教授
Associate Professor
齊 藤 信 雄
SAITO, Nobuo
エネルギー変換材料研究室
Energy Conversion Material Laboratory
助 教
Assistant Professor
白仁田 沙代子
SHIRONITA, Sayoko
ケミカルデバイス研究室
Chemical Devices Laboratory
助 教
Assistant Professor
多賀谷 基 博
TAGAYA, Motohiro
機能材料解析工学研究室
Laboratory of Intelligent Materials for Chemical Analysis
Engineering
助 教
Assistant Professor
西 川 雅 美
NISHIKAWA, Masami
反応物理化学研究室
Laboratory of Reaction Physical Chemistry
(2)無機材料工学 Inorganic Materials Engineering group
職 名
氏 名
研 究 室 等
教 授
Professor
小 松 高 行
KOMATSU, Takayuki
機能ガラス工学研究室
Functional Glass Engineering Laboratory
教 授
Professor
斎 藤 秀 俊
SAITOH, Hidetoshi
光・電子セラミックス研究室
Opto-Electronic Ceramics Laboratory
准教授
Associate Professor
石 橋 隆 幸
ISHIBASHI, Takayuki
結晶材料工学研究室
Crystalline Materials Science Laboratory
准教授
Associate Professor
内 田
希
UCHIDA, Nozomu
無機材料シミュレーション研究室
Laboratory of simulation for inorganic materials
准教授
Associate Professor
田 中
諭
TANAKA, Satoshi
セラミックサイエンス研究室
Ceramic Science Laboratory
准教授
Associate Professor
助 教
Assistant Professor
本 間
剛
HONMA, Tsuyoshi
篠 崎 健 二
SHINOZAKI, Kenji
機能ガラス工学研究室
Functional Glass Engineering Laboratory
機能ガラス工学研究室
Functional Glass Engineering Laboratory
(3)有機材料工学 Organic Materials Engineering group
職 名
氏 名
研 究 室 等
教 授
Professor
五十野 善 信
ISONO, Yoshinobu
有機材料工学研究室
Organic Materials Laboratory
教 授
Professor
竹 中 克 彦
TAKENAKA, Katsuhiko
高分子材料工学研究室
Laboratory of Polymer Materials Science
准教授
Associate Professor
河 原 成 元
KAWAHARA, Seiichi
有機材料工学研究室
Organic Materials Laboratory
助 教
Assistant Professor
藤 井 修 治
FUJII, Shuji
有機材料工学研究室
Organic Materials Laboratory
- 14 -
(4)分子設計工学 Molecular Design Engineering group
職 名
准教授
Associate Professor
氏 名
前 川 博 史
MAEKAWA, Hirofumi
研 究 室 等
有機分子設計研究室
Organic Molecular Design Laboratory
4.建設工学専攻 Civil Engineering
(1)計画・環境工学 Planning and Environmental Engineering group
職 名
氏 名
研 究 室 等
教 授
Professor
大 塚
悟
OHTSUKA, Satoru
環境防災研究室
Environmental and Disaster Prevention Laboratory
教 授
Professor
高 橋
修
TAKAHASHI, Osamu
交通工学研究室
Highway Engineering Laboratory
准教授
Associate Professor
宮 木 康 幸
MIYAKI, Yasuyuki
環境防災研究室
Environmental and Disaster Prevention Laboratory
助 教
Assistant Professor
中 村
健
NAKAMURA, Takeshi
交通工学研究室
Highway Engineering Laboratory
(2)水工・防災工学 Hydraulics and Disaster Control Engineering group
職 名
氏 名
研 究 室 等
教 授
Professor
杉 本 光 隆
SUGIMOTO, Mitsutaka
地盤工学研究室
Geotechnical Engineering
教 授
Professor
細山田 得 三
HOSOYAMADA, Tokuzo
水工学研究室
Hydraulic Engineering Laboratory
准教授
Associate Professor
豊 田 浩 史
TOYOTA, Hirofumi
地盤工学研究室
Geotechnical Engineering
助 教
Assistant Professor
犬 飼 直 之
INUKAI, Naoyuki
水工学研究室
Hydraulic Engineering Laboratory
助 教
Assistant Professor
玉 井 達 毅
TAMAI, Tatsuki
地盤工学研究室
Geotechnical Engineering
(3)構造工学 Structural Engineering group
職 名
氏 名
研 究 室 等
教 授
Professor
下 村
匠
SHIMOMURA, Takumi
コンクリート研究室
Concrete Laboratory
准教授
Associate Professor
宮 下
剛
MIYASHITA, Takeshi
建設構造研究室
Structural Analysis Laboratory
助 教
Assistant Professor
田 中 泰 司
TANAKA, Yasushi
コンクリート研究室
Concrete Laboratory
- 15 -
5.環境システム工学専攻 Environmental Systems Engineering
(1)環境情報工学 Environmental Information Engineering group
職 名
氏 名
研 究 室 等
教 授
Professor
解 良 芳 夫
KERA, Yoshio
環境生物化学研究室
Environmental Biochemistry Laboratory
教 授
Professor
力 丸
厚
RIKIMARU, Atsushi
環境リモートセンシング研究室
Environmental Remote Sensing Laboratory
教 授
Professor
陸
旻 皎
LU, Minjiao
水文気象研究室
Laboratory of Hydrology and Meteorology
准教授
Associate Professor
熊 倉 俊 郎
KUMAKURA, Toshiro
水文気象研究室
Laboratory of Hydrology and Meteorology
准教授
Associate Professor
高 橋 一 義
TAKAHSHI, Kazuyoshi
環境リモートセンシング研究室
Environmental Remote Sensing Laboratory
准教授
Associate Professor
高 橋 祥 司
TAKAHASHI, Shouji
環境生物化学研究室
Environmental Biochemistry Laboratory
助 教
Assistant Professor
阿 部 勝 正
ABE, Katsumasa
環境生物化学研究室
Environmental Biochemistry Laboratory
助 教
Assistant Professor
楊
宏 選
YANG, Hongxuan
水文気象研究室
Laboratory of Hydrology and Meteorology
(2)環境制御工学 Environmental Protection Engineering group
職 名
氏 名
研 究 室 等
教 授
Professor
佐 藤 一 則
SATO, Kazunori
環境材料科学研究室
Environmental Materials Science Laboratory
教 授
Professor
山 口 隆 司
YAMAGUCHI, Takashi
水圏土壌環境制御研究室
Aqua and Soil Environmental Laboratory
准教授
Associate Professor
小 松 俊 哉
KOMATSU, Toshiya
資源エネルギー循環研究室
Laboratory of Resource and Energy Cycles
准教授
Associate Professor
高 橋 由紀子
TAKAHASHI, Yukiko
環境材料科学研究室
Environmental Materials Science Laboratory
准教授
Associate Professor
姫 野 修 司
HIMENO, Shuji
資源エネルギー循環研究室
Laboratory of Resource and Energy Cycles
助 教
Assistant Professor
テオ ワッ ツー
TEOH, Wah Tzu
環境材料科学研究室
Environmental Materials Science Laboratory
助 教
Assistant Professor
幡 本 将 史
HATAMOTO, Masashi
水圏土壌環境制御研究室
Aqua and Soil Environmental Laboratory
(3)環境社会工学 Environmental Planning and Social Engineering group
職 名
氏 名
研 究 室 等
教 授
Professor
中 出 文 平
NAKADE, Bunpei
都市計画研究室
Urban Planning Laboratory
准教授
Associate Professor
佐 野 可寸志
SANO, Kazushi
都市交通研究室
Urban Transport Engineering & Planning Laboratory
- 16 -
准教授
Associate Professor
樋 口
秀
HIGUCHI, Shu
都市計画研究室
Urban Planning Laboratory
助 教
Assistant Professor
西 内 裕 晶
NISHIUHI, Hiroaki
都市交通研究室
Urban Transport Engineering & Planning Laboratory
助 教
Assistant Professor
松 川 寿 也
MATSUKAWA, Toshiya
都市計画研究室
Urban Planning Laboratory
6.生物機能工学専攻 Bioengineering
(1)生物エネルギー工学 Bioenergetics
職 名
氏 名
研 究 室 等
教 授
Professor
岡 田 宏 文
OKADA, Hirofumi
微生物生理機能工学研究室
Laboratory of Applied Fungal Physiology
教 授
Professor
下 村 雅 人
SHIMOMURA, Masato
生物材料工学研究室
Material Laboratory for Bioengineering
准教授
Associate Professor
大 沼
清
OHNUMA, Kiyoshi
システム幹細胞工学研究室
Laboratory for Stem Cell tissue Engineering
准教授
Associate Professor
小笠原
渉
OGASAWARA, Wataru
生物資源工学研究室
Laboratory of Bioresource Engineering
准教授
Associate Professor
木 村 悟 隆
KIMURA, Noritaka
高分子機能工学研究室
Polymer Functionalization Laboratory
准教授
Associate Professor
本 多
元
HONDA, Hajime
生体運動研究室
Laboratory for Biological Motility
助 教
Assistant Professor
今 井 栄 一
IMAI, Eiichi
生体運動研究室
Laboratory for Biological Motility
助 教
Assistant Professor
桑 原 敬 司
KUWAHARA, Takashi
生物材料工学研究室
Material Laboratory for Bioengineering
(2)生物情報工学 Bioinformatics
職 名
氏 名
研 究 室 等
教 授
Professor
滝 本 浩 一
TAKIMOTO, Koichi
分子生理工学研究室
Laboratory for Molecular Physiology
教 授
Professor
福 田 雅 夫
FUKUDA, Masao
環境微生物工学研究室
Laboratory of Applied Environmental Microbiology
教 授
Professor
政 井 英 司
MASAI, Eiji
微生物代謝工学研究室
Laboratory of Microbial Metabolic Engineering
准教授
Associate Professor
霜 田
靖
SHIMODA, Yasushi
神経機能工学研究室
Laboratory for Neuroengineering
准教授
Associate Professor
築 地 真 也
Tsukiji, Shinya
合成生体分子化学研究室
Laboratory of Synthetic Biomolecular Chemistry
准教授
Associate Professor
西 村 泰 介
NISHIMURA, Taisuke
植物エピジェネティクス工学研究室
Plant Epigenetics Engineering
- 17 -
准教授
Associate Professor
山 本 麻 希
YAMAMOTO, Maki
野生動物管理学研究室
Laboratory of Engineering of Wildlife Management
助 教
Assistant Professor
笠 井 大 輔
KASAI, Daisuke
環境微生物工学研究室
Laboratory of Applied Environmental Microbiology
(3)生物物質工学 Biomaterials
職 名
氏 名
研 究 室 等
教 授
Professor
城 所 俊 一
KIDOKORO, Shun-ichi
分子生物物理学研究室
Molecular Biophysics Laboratory
准教授
Associate Professor
佐 藤 武 史
SATO, Takeshi
糖鎖生命工学研究室
Laboratory of Glycobiology
准教授
Associate Professor
高 原 美 規
TAKAHARA, Yoshinori
応用植物工学研究室
Laboratory of Applied Plant BioTechnology
助 教
Assistant Professor
上 村 直 史
KAMIMURA, Naofumi
微生物代謝工学研究室
Laboratory of Microbial Metabolic Engineering
助 教
Assistant Professor
内 山 尚 志
UCHIYAMA, Hisashi
医用生体工学研究室
Institute of Biomedical Engineering Laboratory
7.経営情報システム工学専攻 Management and Information Systems Engineering
(1)経営情報学 Management Information Systems
職 名
氏 名
研 究 室 等
教 授
Professor
北 島 宗 雄
KITAJIMA, Muneo
認知行動科学研究室
Cognitive and Behavioral Sciences Laboratory
教 授
Professor
山 田 耕 一
YAMADA, Koichi
教 授
Professor
湯 川 高 志
YUKAWA, Takashi
知能情報科学&ヒューマンインタフェース研究室
Laboratory for Intelligent Informatics & Human Computer
Interactions
知識システム研究室
Knowledge Systems Laboratory
准教授
マーラシンハ チャンドラ
ジット アーシュボーダ
MARASINGHE Chandrajith
Ashuboda
畦 原 宗 之
UNEHARA, Muneyuki
Associate Professor
助 教
Assistant Professor
感性情報工学研究室
Kansei Informatics Lab
知能情報科学&ヒューマンインタフェース研究室
Laboratory for Intelligent Informatics & Human Computer
Interactions
(2)経営システム工学 Management Systems Engineering
職 名
氏 名
研 究 室 等
3E(経済、エネルギー、環境)研究室
教 授
Professor
李
志 東
LI, ZhiDong
3E's (Economy, Energy and Environment) Laboratory
准教授
Associate Professor
高 橋 弘 毅
TAKAHASHI, Hirotaka
数理工学・宇宙物理研究学
Mathematical Engineering Laboratory
- 18 -
准教授
Associate Professor
野 村 収 作
NOMURA, Shusaku
アンビエント生体医工学研究室
Ambient Biomedical Engineering Laboratory
助 教
Assistant Professor
吉 田 富美男
YOSHIDA, Fumio
感性情報工学研究室
Kansei Informatics Lab
(3)社会経済システム学 Socioeconomics Systems
職 名
氏 名
研 究 室 等
教 授
Professor
松 井 志菜子
MATSUI, Shinako
信濃研究室
Shinano Laboratory
准教授
Associate Professor
岡 本 満喜子
OKAMOTO, Mikiko
安全法学・組織文化研究室
Organizational Culture Laboratory
准教授
Associate Professor
鈴 木 信 貴
SUZUKI, Nobutaka
准教授
Associate Professor
助 教
Assistant Professor
綿 引 宣 道
WATAHIKI, Nobumichi
鈴 木
泉
SUZUKI, Izumi
経営戦略・技術経営・ものづくり経営研究室
Strategic management, Management of technology, and
Manfacturing Management Laboratory
経営社会学・組織研究室
Economic Sociology
知能情報学&ヒューマンインターフェース研究室
Laboratory for Intelligent Informatics & Human Computer
Interactions
(4)国際産業開発システム学 Development of International Business Systems
職 名
教 授
Professor
氏 名
住 谷 安 史
SUMITANI, Yasushi
研 究 室 等
経済活力研究室
Economic Vitality Analysis Laboratory
(5)教育システム情報工学 Educational Information Engineering
職 名
氏 名
助 教
安 藤 雅 洋
Assistant Professor
ANDO, Masahiro
助 教
中 平 勝 子
Assistant Professor
NAKAHIRA, Katsuko
研 究 室 等
教育システム情報工学研究室/
マルチメディアシステムセンター
Educational Information Engineering/
Center for Multimedia System
教育システム情報工学研究室/
eラーニング研究実践センター
Educational Information Engineering/
Center for e-Learning Research and Application
(6)生活福祉支援情報工学 Life Support Technology and Medical Informatics
職 名
氏 名
研 究 室 等
教 授
Professor
塩野谷
明
SHIONOYA, Akira
スポーツ法工学研究室
Sport Performing and Judicial Engineering Laboratory
教 授
Professor
三 宅
仁
MIYAKE, Hitoshi
助 教
Assistant Professor
永 森 正 仁
NAGAMORI, Masahito
医用福祉工学研究室/体育・保健センター
ME-Laboratory /Physical Education and Health Care
Center
医用福祉工学研究室
ME-Laboratory
- 19 -
8.原子力システム安全工学専攻 Nuclear System Safety Engineering
(1)安全技術 Safety Technology
職 名
氏 名
研 究 室 等
教 授
Professor
岩 崎 英 治
IWASAKI, Eiji
建設構造研究室
Structural Engineering Laboratory
教 授
Professor
教 授
Professor
小 川
徹
OGAWA, Toru
片 倉 純 一
KATAKURA, Jun-ichi
教 授
Professor
鈴 木 達 也
SUZUKI, Tatsuya
核燃料・炉心工学研究室
Nuclear Fuels and Reactor Core Engineering Laboratory
臨界・バックエンド研究室
Laboratory of Nuclear Criticality Safety and Back-End
Engineering
放射化学研究室
Laboratory for Nuclear and Radiochemistry
准教授
Associate Professor
菊 池 崇 志
KIKUCHI, Takashi
プラズマ力学研究室
Plasma Dynamics Laboratory
助 教
Assistant Professor
松 本 義 伸
核燃料・炉心工学研究室
MATSUMOTO, Yoshinobu Nuclear Fuels and Reactor Core Engineering Laboratory
(2)安全マネジメント Safety Management
職 名
氏 名
研 究 室 等
教 授
Professor
鈴 木 雅 秀
SUZUKI, Masahide
原子力材料・保全工学研究室
Nuclear Materials & Maintechnoligy Laboratory
教 授
Professor
三 上 喜 貴
MIKAMI, Yoshiki
安全・技術・社会研究室
Safety, Technology, Society Lab.
(3)エネルギー技学 Energy Science and Technology
職 名
氏 名
研 究 室 等
教 授
Professor
江
偉 華
JIANG, Weihua
極限エネルギー密度工学研究センター
Extreme Energy-Density Research Institute
教 授
Professor
末 松 久 幸
SUEMATSU, Hisayuki
極限エネルギー密度工学研究センター
Extreme Energy-Density Research Institute
教 授
Professor
鈴 木 一 彦
SUZUKI, Kazuhiko
先進設備設計・工学研究室
Advanced Equipment Design / Engineering Laboratory
助 教
Assistant Professor
鈴 木 常 生
SUZUKI, Tsuneo
極限エネルギー密度工学研究センター
Extreme Energy-Density Research Institute
助 教
Assistant Professor
須 貝 太 一
SUGAI, Taichi
極限エネルギー密度工学研究センター
Extreme Energy-Density Research Institute
- 20 -
〒940−2188
新潟県長岡市上富岡町 1603−1
長岡技術科学大学 入学試験第 1 係
TEL 0258-47-9271・9273
Fax 0258-47-9070
Division of Admissions
Nagaoka University of Technology
1603-1 Kamitomioka, Nagaoka,
Niigata 940-2188, JAPAN
Phone +81-258-47-9271, 9273
Fax +81-258-47-9070
E-mail:[email protected]
URL: http://www.nagaokaut.ac.jp
平成26年5月1日現在
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