International Program for Interdisciplinary Science and Engineering (IPISE)

1. Outline of the Program

This graduate program is designed to produce researchers and engineers capable of solving the highly technical and complex real-world problems relating to materials, the environment, and information, through science and engineering. The independent graduate school that offers this program emphasizes interdisciplinary and creative education and research. In pace with the progress of globalization, the program accepts students from all over the world especially mature individuals with experience in solving problems overseas. The program offers these students a flexible and carefully designed course of education that can be finely customized according to their individual academic backgrounds and research interests, as well as the opportunity for exchange with Japanese students through tuition, and for internships with international research institutes and companies in Japan. The program is geared to producing innovative technologists equipped to tackle practical problems and to build multilateral international networks among them.

Tokyo Insitute of Technology

 

2. Course Descriptions

The IPISE was established in 2007 and renewed in 2013 in the Interdisciplinary Graduate School of Science and Engineering, which consists of 11 departments. In the IPISE, there are three advanced courses which are composed of the departments in the fields of Materials Science, Environment & Energy, and Information Systems. The enrolled student officially belongs to one of these 11 departments according to his/her supervisor, and learns under the curriculum offered by the department.

1. Advanced Course of Materials Science and Engineering

The course consists of the following 3 departments.

  1. Department of Innovative and Engineered Materials (IEM)*
  2. Department of Electronic Chemistry (ECHEM)*
  3. Department of Materials Science and Engineering (MSE)*

*( ) is Department code used in IPISE lecture title.

The three departments are at the forefront of research not only in Japan, but worldwide, in a wide range of fields, from basic research in the chemistry of organic, inorganic, metallic, and composite materials, to the development of high-performance materials. They aim to exploit the science and engineering of the near future, in particular future-oriented electronics, to contribute to the construction of a safe, secure, and sustainable society. It is necessary to pass the results of this materials research rapidly and efficiently to the international community. Also, due to the expected standardization and mobility of global-scale universities and graduate schools in the near future, pioneering work is vital in this field.

2. Advanced Course of Environmental and Energy Science and Engineering

The course consists of the following 4 departments.

  1. Department of Environmental Science and Technology (DEPE)*
  2. Department of Built Environment (ENVENG)*
  3. Department of Energy Sciences (DES)*
  4. Department of Environmental Chemistry and Engineering (CHEMENV)*

*( ) is Department code used in IPISE lecture title.

Science and technology is expected to make a contribution to the common global issues that must be addressed in order to construct a sustainable society - namely environmental problems, natural disaster threats, and energy problems. Because the nature of these problems, their conditions of occurrence, and the means for solving them vary from place to place, there is a vital need for innovative technologists who can conduct probing research into specific cases to seeks solutions. Positioning these highly individual phenomena into the generalized knowledge system of science is both extremely labor-intensive and time consuming. For this reason, compared with other more highly abstract fields of science, often the results of research efforts cannot be always be successfully applied. In this course, the technologists placed in this position are taken up as a major subject of study.

3. Advanced Course of Information Technology and System Sciences

The course consists of the following 4 departments.

  1. Department of Electronics and Applied Physics (E&AP)*
  2. Department of Mechano-Micro Engineering (MECMIC)*
  3. Department of Computational Intelligence and Systems Science (CISS)*
  4. Department of Information Processing (IP)*

*( ) is Department code used in IPISE lecture title.

The Information and Systems group is targeted at high achievers from leading universities in developing countries, or universities with which Tokyo Tech has cooperative agreements, and covers leading-edge, innovative, practical, and original fields of research in intelligent computing and data communications. The course aims to cultivate world-leading individuals who will promote exchange between Japan and international researchers and technologists when they return home after completing their studies.

 

3. Graduate Study Guide

The IPISE offers three types of study programs, namely, Integrated Doctoral Education Program(I), Master’s Program(M) and Doctoral Program(D).

The IPISE offers Integrated Doctoral Education Program(I), which is designed as a combined program continuing from Master’s Program to Doctoral Program. However, the 11 member departments of the IPISE, which belong to Interdisciplinary Graduate School of Science and Engineering (IGS), offer Master’s Programs(M) and Doctoral Programs(D) under the similar curricula as IPISE. Detailed explanation of each program together with requirement for degree conferred is as follows.

(I) Integrated Doctoral Education Program (IPISE IGP(A))

The Integrated Doctoral Education Program is designed as a combined program continuing from Master’s Program to Doctoral Program, so that enrolled students can obtain both of the degrees in three to five years. Therefore, even candidates with master’s degree are required to enroll from the beginning of master’s program.

Integrated Doctoral Education Program (IPISE-I)

In the master’s program, the student who satisfies the following requirement is conferred a master’s degree, and is qualified to continue the Doctoral study with some formalities.

(1)  Credits

30 or more credits must be acquired. In these credits:

a. 18 credits or more must be acquired from the subjects of “Research Courses” and “Courses by Departments” offered by the department you enroll in. The “Research Courses” and “Courses by Departments” are composed of the research subjects such as seminar subjects and advanced subjects related with your Department field.

b. 2 credits or more must be acquired from the subjects from “Liberal Arts and General Education(G)” offered by all Departments, such as Modern Japan and international communication subjects.

c. 10 credits acquired at other university can be transferred after submission of the designated form, and approval by supervisor, lecturer and department head.

d. The seminar and other compulsory subjects at each term must be acquired (*).

e. Other compulsory subjects must be taken.
Note that the required number of credits about the compulsory subject might be different depending on the departments (Refer the list of subject of each department).

f. 4 credits of lectures provided in Japanese, except credits transferred from other universities
(mentioned at c.), are allowed at maximum to be included in the above designated number of credits. Note that it does not mean to prevent students to obtain more credits of the lectures provided in Japanese.

*: A student who is approved to shorten the period of study can skip the subjects in the shortened period.

(2)  Special Research Topics Thesis
The student must complete a special research, submit a thesis for the degree and take the final examination given after the submission of her/his thesis for the qualification.

In the Doctoral program, the candidate who satisfies the following requirements, is conferred a Doctoral degree.

(1)  Seminar and other compulsory subjects in each term must be taken (*).

(2)  The candidate must complete and submit a thesis for the degree, and pass the final examination to evaluate his/her thesis.

Note that the above requirements are minimal and some additional requirements may be conditioned depending on the department. All students are strongly advised to consult with their own supervisors about the study plan.

(M) Master’s Program (pre-Doctoral) (IGS IGP(C))

An enrolled student who obtains the designated number of credits within a pre-determined program of study in his/her department after at least two years of supervised study will be awarded a Master’s degree after approval of his/her thesis and a successful final examination. A student who made an outstanding academic record during the program may be able to shorten the period of study to a minimum of one year.

The student who satisfies the following requirement is conferred a master’s degree.

(1)  Credits

30 or more credits must be acquired. In these credits:

a. 18 credits or more must be acquired from the subjects of “Research Courses” and “Courses by Departments” offered by the department you enroll in. The “Research Courses” and “Courses by Departments” are composed of the research subjects such as seminar subjects and advanced subjects related with your Department field.

b. 2 credits or more must be acquired from the subjects from “Liberal Arts and General Education(G)” offered by all Departments, such as Modern Japan and international communication subjects.

c. 10 credits acquired at other university can be transferred after submission of the designated form, and approval by supervisor, lecturer and department head.

d. The seminar and other compulsory subjects at each term must be acquired (*).

e. Other compulsory subjects must be taken.
Note that the required number of credits about the compulsory subject might be different depending on the departments (Refer the list of subject of each department).

f. 4 credits of lectures provided in Japanese, except credits transferred from other universities (mentioned at c.), are allowed at maximum to be included in the above designated number of credits. Note that it does not mean to prevent students to obtain more credits of the lectures provided in Japanese.

*: A student who is approved to shorten the period of study can skip the subjects in the shortened period.

(2)  Thesis
The student must complete a special research, submit a thesis for the degree and take the final examination given after the submission of her/his thesis for the qualification.

The students qualified by the examination committee are admitted to go onto the Doctoral program with some formalities.

Master's and Doctoral Education Programs in IPISE

(D) Doctoral Program (IGS IGP(C))

An enrolled student who obtains the designated number of credits within a pre-determined program of study in his/her department after at least three years of supervised study will be awarded a Doctoral degree after approval of his/her thesis and a successful final examination. A student who made an outstanding academic record and research achievement during the program may be able to shorten the period of study to a minimum of one year. The minimum period that includes both the master’s and doctoral program can be three years in total.

The candidate who satisfies the following requirements is conferred a Doctoral degree.

(1) Seminar and other compulsory subjects in each term must be taken (*).

(2) The candidate must complete and submit a thesis for the degree, and pass the final examination to evaluate his/her thesis.

*: A student who is approved to shorten the period of study can skip the subjects in the shortened period

Note that the above requirements are minimal and some additional requirements may be conditioned depending on the department. All students are strongly advised to consult with their own supervisors about the study plan.

 

4-1 Department of Innovative and Engineered Materials (IEM)

Research Courses

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
97725 IPISE Seminar (IEM-M) I 1-0-0 Supervisor Autumn
97726 IPISE Seminar (IEM-M) II 1-0-0 Supervisor Spring
97727 IPISE Seminar (IEM-M) III 1-0-0 Supervisor Autumn
97728 IPISE Seminar (IEM-M) IV 1-0-0 Supervisor Spring
97851 IPISE Seminar (IEM) V 2-0-0 Supervisor Autumn Dr.
97852 IPISE Seminar (IEM) VI 2-0-0 Supervisor Spring Dr.
97853 IPISE Seminar (IEM) VII 2-0-0 Supervisor Autumn Dr.
97854 IPISE Seminar (IEM) VIII 2-0-0 Supervisor Spring Dr.
97855 IPISE Seminar (IEM) IX 2-0-0 Supervisor Autumn Dr.
97856 IPISE Seminar (IEM) X 2-0-0 Supervisor Spring Dr.

1)  : Compulsory. None: Optional.

2)  Dr: For Doctor’s course student.


Courses by Departments

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
97016 Topics in Innovative Materials Science II 2-0-0 K. Nakamura,
T. Iyoda		 Autumn    
97052 Materials Science 101 2-0-0 T. Sasagawa
T. Kamiya
M. Azuma		 Autumn    
97015 Topics in Innovative Materials Science I 2-0-0 O. Odawara
K. Nagai
M. Azuma		 Spring    
97017 Crystallography for Microstructural Characterization 2-0-0 T. Fujii Autumn
(Odd Years)		    
97036 Alloy Phase Diagram 2-0-0 H. Hosoda
T. Inamura		 Autumn
(Even Years)		    
96047 Science and Engineering of Solidification* 2-0-0 S. Kumai Spring
(Even years)		    
96048 Characteristics & Applications of Intermetallic Alloys* 2-0-0 Y. Kimura Spring
(Even years)		    
96049 Lattice Defects & Mechanical Properties of Materials* 2-0-0 S. Onaka,
M. Kato		 Autumn
(Even years)		    
96050 Diffusion in Alloys* 2-0-0 M. Kajihara Autumn
(Even years)		    
96055 Advanced Course in Design and Fabrication of Micro/Nano Materials* 2-0-0 Masato Sone
T.-F. M. Chang		 Autumn
(Odd years)		    
97005 Advanced Photo-Electronic Devices 2-0-0 Y. Kitamoto,
H. Funakubo,
H. Wada		 Autumn    
97555 IPISE Internship (IEM) IA 0-0-1 Department Chair Spring    
97556 IPISE Internship (IEM) IB 0-0-1 Department Chair Autumn    
97557 IPISE Internship (IEM) IIA 0-0-2 Department Chair Spring    
97558 IPISE Internship (IEM) IIB 0-0-2 Department Chair Autumn    
89134 Seminar for cultivating international understandings 0-3-0 K. Kajikawa Autumn
93059 Historical Review of Intellectual Property 1-0-0 Y. Hayashi Autumn
36005 Strategic Management of Technology 2-0-0 K. Miyazaki Spring    
97715 IPISE Academic Presentation (IEM) I 0-1-0 Supervisor Autumn  
97716 IPISE Academic Presentation (IEM) II 0-1-0 Supervisor Spring  
97717 IPISE Academic Presentation (IEM) III 0-1-0 Supervisor Autumn  
97718 IPISE Academic Presentation (IEM) IV 0-1-0 Supervisor Spring  
97861 IPISE Academic Presentation (IEM) V 0-1-0 Supervisor Autumn  
97862 IPISE Academic Presentation (IEM) VI 0-1-0 Supervisor Spring  
97863 IPISE Academic Presentation (IEM) VII 0-1-0 Supervisor Autumn  
97864 IPISE Academic Presentation (IEM) VIII 0-1-0 Supervisor Spring  
97865 IPISE Academic Presentation (IEM) IX 0-1-0 Supervisor Autumn  
97866 IPISE Academic Presentation (IEM) X 0-1-0 Supervisor Spring  
  Courses in other Departments and Courses in Education Academies, except for courses lectured in Japanese.          

1)    *: Mainly organized by Department of Materials Science and Engineering


97016 Topics in Innovative Materials Science II, 2 credits, Autumn Semester

K. Nakamura, T. Iyoda

Each instructor gives lectures relevant to recent topics and progress in the field of materials with novel functions. Some of the lectures are organized as seminars, in which each student gives a short presentation on a topic selected by her/himself and agreed by her/his instructor(s).

97052 Materials Science 101, 2 credits, Autumn Semester

T. Sasagawa, T. Kamiya, M. Azuma

This is an introductory course on materials science (solid state physics), with emphasis on electronic properties of crystalline materials. After studying the basics of quantum mechanics and the band theory, lectures are extended to advanced topics such as superconductors, semiconductor applications, and crystallographic symmetry.

97015 Topics in Innovative Materials Science I, 2 credits, Spring Semester

O. Odawara, K. Nagai, M. Azuma

The purpose of the lecture is to present innovative concepts and technologies for the exploration, characterization and utilization of materials and devices. Status quo of nanotechnologies in materials, processing and applications is overviewed.

97017 Crystallography for Microstructural Characterization, 2 credits, Autumn Semester, Odd Years

T. Fujii

This class offers methods of determining the crystal structure and characterizing the microstructure of metals. Students will learn about the basic crystallography, stereographic projection, x-ray and electron diffraction, and electron microscopy. Quizzes are given out to the students in every class.

97036 Alloy Phase Diagram, 2 credits, Autumn Semester, Even Years

H. Hosoda, T. Inamura

The purpose of this lecture is a comprehensive understanding of the alloy phase diagrams in the binary and ternary systems through studying the phase reaction, the phase rule, Gibbs free energy and related features. Besides, microstructures are discussed in connection with alloy phase diagrams. Besides, practice is provided in each class to develop understanding.

97005 Advanced Photo-Electronic Devices

Y. Kitamoto, H. Funakubo, H. Wada

This lecture will provide essential knowledge for students who are engaged in research projects related to materials and device developments, giving the representative examples of advanced electronics, magnetic and ferroelectric devices and learning through case studies: how spin and charge degrees of freedom in carriers affect on materials properties and functions, how important device processes are for their better performance, and so on.

Liberal Arts and General Education(G)

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
96053 Modern Japan 1-0-0 To be announced Spring  
97551 IPISE International Communication (IEM) I 0-1-0 Supervisor Autumn #1 #2
97552 IPISE International Communication (IEM) II 0-1-0 Supervisor Spring #1 #2
97553 IPISE International Communication (IEM) III 0-1-0 Supervisor Autumn #1 #2
97554 IPISE International Communication (IEM) IV 0-1-0 Supervisor Spring #1 #2
99405 Technical Writing 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99406 Technical Writing 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99412 Technical Writing 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99413 Technical Writing 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99403 Technical Discussion 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99404 Technical Discussion 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99410 Technical Discussion 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99411 Technical Discussion 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99416 Critical Thinking 2-0-0 D. Ricinschi
H. Gonzales		 Autumn    
99415 Scientific Communication 2-0-0 D. Berrar
D. Ricinschi		 Spring    
99417 Global Trends in Science and Technology 2-0-0 H. Gonzales
D. Berrar		 Autumn    
99408 Ethics for Scientists and Engineers 2-0-0 M. Yamamura
Y. Iwamoto		 Autumn    

1)  : Compulsory. None: Optional.

2)  #1: Two of the four subjects, i.e. IPISE International Communication I through IV, must be taken.

3)  #2: Two of the four subjects, i.e. IPISE International Communication I through IV, must be taken in master’s course.

4)  ‘Technical Writing’, ‘Technical Discussion’ can be registered only by the students who belong to IPISE, IGP(A) and Innovative Platform for Education and Research course (IPER).


4-2 Department of Electronic Chemistry (ECHEM)

Research Courses

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
95705 IPISE Seminar (ECHEM) I 0-2-0 Supervisor Autumn, M1 Mr.
95706 IPISE Seminar (ECHEM) II 0-2-0 Supervisor Spring, M1 Mr.
95707 IPISE Seminar (ECHEM) III 0-2-0 Supervisor Autumn, M2 Mr.
95708 IPISE Seminar (ECHEM) IV 0-2-0 Supervisor Spring, M2 Mr.
95851 IPISE Seminar (ECHEM) V 0-2-0 Supervisor Autumn, D1 Dr.
95852 IPISE Seminar (ECHEM) VI 0-2-0 Supervisor Spring, D1 Dr.
95853 IPISE Seminar (ECHEM) VII 0-2-0 Supervisor Autumn, D2 Dr.
95854 IPISE Seminar (ECHEM) VIII 0-2-0 Supervisor Spring, D2 Dr.
95855 IPISE Seminar (ECHEM) IX 0-2-0 Supervisor Autumn, D3 Dr.
95856 IPISE Seminar (ECHEM) X 0-2-0 Supervisor Spring, D3 Dr.
95725 Special Experiments (ECHEM) I 0-0-1 Supervisor Autumn, M1 Mr.
95726 Special Experiments (ECHEM) II 0-0-1 Supervisor Spring, M1 Mr.
95727 Special Experiments (ECHEM) III 0-0-1 Supervisor Autumn, M2 Mr.
95728 Special Experiments (ECHEM) IV 0-0-1 Supervisor Spring, M2 Mr.

1)  : Compulsory. None: Optional.

2)   Dr: For Doctorfs course student.


Courses by Departments

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
95039 Nanotechnology and Nanoscience 2-0-0 Masahiko HARA
Tomohiro HAYASHI		 Spring
(Even Year)		    
95045 Advanced Catalytic Chemistry 2-0-0 Junko NOMURA Autumn
(Odd Year)		    
95037 Fundamental Electrochemistry 2-0-0 Takeo OHSAKA,
Fusao KITAMURA		 Autumn
(Odd Year)		    
95046 Fundamental Biological Chemistry 2-0-0 Kan TANAKA
Sousuke IMAMURA		 Autumn
(Odd Year)		    
95051 Laser Spectroscopy for Chemistry 2-0-0 Masaaki FUJII,
Makoto SAKAI		 Autumn
(Odd Year)		    
95041 Fundamental Science of Thermodynamics and Magnetics 2-0-0 Hitoshi KAWAJI
Nobuhiro MATSUSHITA
 Autumn
(Even Year)		    
95047 Organic Synthesis 2-0-0 Kimihiro MATSUKAWA
Munenori INOUE		 Autumn
(Even Year)		    
95048 Inorganic Materials Science 2-0-0 Ryoji KANNO
Masaaki HIRAYAMA		 Autumn
(Even Year)		    
95038 Organic Molecular and Macromolecular Chemistry 2-0-0 Yoshiro YAMASHITA,
Ikuyoshi TOMITA		 Autumn
(Odd Year)		    
95058 Semiconductor Physics and Devices 2-0-0 Hiroshi YAMAMOTO,
Kazunari OZASA		 Autumn
(Even Year)		    
95049 Organic Electrode Process 1-0-0 Shinsuke INAGI Autumn
(Even Year)		    
95021 Coordination Chemistry 2-0-0 Takanori FUKUSHIMA,
Take-aki KOIZUMI		 Autumn
(Odd Year)		    
95059 Applied Electrochemistry 2-0-0 Yukari SATO,
Jiro NAKAMURA		 Autumn
(Odd Year)		    
95715 IPISE Academic Presentation (ECHEM) I 0-1-0 Supervisor Autumn, M1  
95716 IPISE Academic Presentation (ECHEM) II 0-1-0 Supervisor Spring, M1  
95717 IPISE Academic Presentation (ECHEM) III 0-1-0 Supervisor Autumn, M2  
95718 IPISE Academic Presentation (ECHEM) IV 0-1-0 Supervisor Spring, M2  
95861 IPISE Academic Presentation (ECHEM) V 0-1-0 Supervisor Autumn, D1  
95862 IPISE Academic Presentation (ECHEM) VI 0-1-0 Supervisor Spring, D1  
95863 IPISE Academic Presentation (ECHEM) VII 0-1-0 Supervisor Autumn, D2  
95864 IPISE Academic Presentation (ECHEM) VIII 0-1-0 Supervisor Spring, D2  
95865 IPISE Academic Presentation (ECHEM) IX 0-1-0 Supervisor Autumn, D3  
95866 IPISE Academic Presentation (ECHEM) X 0-1-0 Supervisor Spring, D3  
95555 IPISE Internship (ECHEM) IA 0-0-1 Department Chair Spring    
95556 IPISE Internship (ECHEM) IB 0-0-1 Department Chair Autumn    
95557 IPISE Internship (ECHEM) IIA 0-0-2 Department Chair Spring    
95558 IPISE Internship (ECHEM) IIB 0-0-2 Department Chair Autumn    

1)  : Compulsory. None: Optional.

2)  Dr: For Doctor’s course student.


95039 Nanotechnology and Nanoscience, 2 credits, Spring Semester, Even Years

M. Hara, T. Hayashi

Nanotechnology, the leading edge of modern science and technology, was born in the early 80’s with the invention of the scanning probe microscopy by Drs. Binnig and Rohrer, Nobel laureates of IBM Zurich. It opened up a completely new window into the nanoscale world, and remains a challenging field in a wide variety of endeavors from solid state physics to molecular biology. In this lecture, we have attempted to accumulate and summarize the nanotechnology and nanoscience activities now underway in the world, and you will find that each story presents an innovative state-of-the-art subject in modern nanotechnological research.

  1. Introduction of Nanotechnology and Nanoscience
  2. Scanning Probe Microscopy and Spectroscopy
    2-1. History of Scanning Probe Microscopy (SPM): from Observation to Manipulation
    2-2. Scanning Tunneling Microscopy (STM) 1: Surface Chemistry and Phase Transitions
    2-3. Scanning Tunneling Microscopy (STM) 2: Self-Assembled Monolayers (SAM)
    2-4. Atomic Force Microscopy (AFM) 1: Biological Macromolecules and Surface Forces
    2-5. Atomic Force Microscopy (AFM) 2: Single Molecular Detection (SMD)
    2-6. Scanning Near-Field Optical Microscopy (SNOM) and Other Probe Methods: Fluorescence Decay Process, Proximity Effect and Further Possibilities
  3. Introduction of surface & interface science
  4. Experimental and theoretical techniques for surface & interface analysis
  5. Chemical modification of solid surfaces (fundamentals and applications)
  6. Biointerfaces (construction, analysis and applications)
  7. Interactions at biointerfaces (theory and analysis)

95045 Advanced Catalytic Chemistry, 2 credits, Autumn Semester, Odd Years

J. Nomura

“Green” approach to chemical processes are not only beneficial to the environment but also can boost profits, stimulated by the use of efficient catalysts. In this lecture, the basic concepts of catalysis, novel materials for catalytic applications, surface analytical techniques and frontier in catalytic chemistry will be presented.

  1. Fundamental heterogeneous catalytic chemistry
  2. New catalytic Materials
    a. Zeolites
    b. Mesoporous materials
    c. Photocatalysts
  3. Surface analytical techniques-How can we clear up black boxes?
  4. Green Chemistry by catalysts
    a. Solid acid and base catalysts
    b. Selective oxidation by catalysts

95037 Fundamental Electrochemistry, 2 credits, Autumn Semester, Odd Years

T. Ohsaka, F. Kitamura

This course aims to develop the foundations and applications of electrode potentials from first principles using a minimum of mathematics only assuming a basic knowledge of elementary thermodynamics.

  1. Introduction
  2. The origin of electrode potentials
  3. Electron transfer at the electrode/solution interface
  4. Thermodynamic description of electrochemical equilibrium
  5. Nernst Equation
  6. Activity and concentration
  7. Activity coefficient
  8. Measurement of Electrode Potentials
  9. Standard Electrode Potentials
  10. The relation of electrode potentials to the thermodynamics of the cell reaction
  11. Standard electrode potentials and the direction of chemical reaction
  12. Migration and diffusion
  13. Applications of electrode potentials (1)
  14. Applications of electrode potentials (2)

95046 Fundamental Biological Chemistry, 2credit, Autumn Semester, Odd Years

K. Tanaka, S. Imamura

Living cells are composed of bio-molecules, such as sugar, lipid, protein and nucleic acid. This course will give fundamental knowledge on these components, as well as the basis of intracellular energy conversion and genetic information processing.

  1. Introduction
  2. Sugars and lipids
  3. Amino acids, peptides and proteins
  4. Nucleic acids
  5. Catabolic metabolism and energy conversion
  6. Mitochondria and chloroplasts
  7. Genes and central dogma: Genetic information processing

95051 Laser Spectroscopy for Chemistry, 2 credits, Autumn Semester, Odd Years

M. Fujii, M. Sakai

Laser spectroscopy is important tool to investigate the structure and dynamics of molecules and clusters in various circumstance such as in gas, a supersonic jet, solution, matrix and surface. This lecture gives the basic understanding of spectroscopy and instrumentations including lasers. The knowledge of quantum chemistry is required.

  1. Introduction to Spectroscopy
  2. Molecular Vibration
  3. Nonlinear Spectroscopy #1
  4. Nonlinear Spectroscopy #2
  5. Time-resolved Spectroscopy #1
  6. Time-resolved Spectroscopy #2
  7. Time-domain vs Frequency domain
  8. Born-Oppenheimer Approximation and Vibronic Coupling
  9. Supersonic Jet Spectroscopy
  10. Double Resonance Spectroscopy #1
  11. Double Resonance Spectroscopy #2
  12. Double Resonance Spectroscopy #3
  13. Energy Relaxation
  14. Relaxation and Reaction

95041 Fundamental Science of Thermodynamics and Magnetics, 2 credits, Autumn Semester, Even Years

H. Kawaji, N. Matsushita

This lecture deals with the thermodynamics and magnetics of materials. In the first half, the temperature variation of the properties of materials will be discussed from the thermodynamic point of view. In the latter, the class deals the electronic state in crystal fields and the spin interaction to understand the magnetism of various materials.

  1. Introduction to thermodynamics
  2. Lows of thermodynamics
  3. Entropy and statistical mechanics
  4. Thermal excitations in materials
  5. Heat capacity of materials
  6. Thermodynamics of phase transitions
  7. Microscopic models of phase transitions
  8. Introduction to magnetics
  9. Schroedinger equation
  10. Angular momentum and quantum number
  11. Crystal field and electron
  12. Molecular orbital and exchange interaction
  13. Molecular field theory I: para - and ferromagnetism
  14. Molecular field theory II: antiferro- and ferrimagnetism

95047 Organic Synthesis, 2 credits, Autumn Semester, Even Years

K. Matsukawa, M. Inoue

This lecture will be focused on the basic and advanced organic synthesis. The former will mainly cover the C-C bond formation reactions and the functional group transformations. The latter will deal with organic polymers by some polymerization methods. Furthermore, this lecture will present the synthesis of organic-inorganic hybrids and their properties.

  1. Introduction
  2. C-C Bond formation by using carbanion (1)
  3. C-C Bond formation by using carbanion (2)
  4. C-C Bond formation by using carbanion (3)
  5. C-C Bond formation by using carbocation
  6. C-C Bond formation by using radical and carbene
  7. Functional group transformations
  8. Introduction of macromolecules
  9. Polymerizations and characterization of organic polymers
  10. Network formation by photo-polymerization
  11. Synthesis of organic-inorganic hybrid materials
  12. Organic-inorganic hybrids with nano materials
  13. Properties of organic-inorganic hybrid materials
  14. Potential applications of organic-inorganic hybrid materials

95048 Inorganic Materials Science, 2 credits, Autumn Semester, Even Years

R. Kanno, M. Hirayama

Inorganic materials science is concerned with the synthesis, structure, properties and applications of inorganic solid materials. The study of structure-property relations is very fruitful area and one with immense possibilities for the development of new materials or materials with unusual combination of properties.

  1. What is materials chemistry
  2. Crystal symmetry and crystal chemistry
  3. Chemical bonding in solids
  4. Nonstoichiometry in solids
  5. Interpretation of phase diagram
  6. Structure and property relationship in electronic conducting materials
  7. Structure and property relationship in magnetic materials
  8. Structure and property relationship in electrochemical materials

95038 Organic Molecular and Macromolecular Chemistry, 2 credits, Autumn Semester, Odd Years

Y. Yamashita, I. Tomita

The aim of this course is to give an overview of molecular design of functional organic molecules and macromolecules. This lecture will cover the following topics.

  1. Novel organic redox systems
  2. Electroconductive and superconductive organic molecules
  3. Organic field effect transistors (FET)
  4. Organic ferromagnets
  5. Inclusion complexes
  6. Solid phase organic synthesis
  7. Photo- and electro-luminescent organic materials
  8. Fundamental aspects of step-growth polymerizations
  9. Recent topics on step-growth polymerizations
  10. Fundamental aspects of chain polymerizations
  11. Living polymerization and macromolecular design through living processes
  12. Recent topics on chain polymerizations
  13. Reactive polymers
  14. Functional polymers

95058 Semiconductor Physics and Devices, 2 credits, Autumn Semester, Even Years

H. Yamamoto, K. Ozasa

This lecture covers the basic physics of semiconductors and various applications including transistors, sensors, LEDs, and solar cells.
First half focuses on inorganic semiconductors and second half on organic semiconductors.

  1. Quantum levels, Schroedinger equation, Atom to crystal, Energy band
  2. Density of states, Fermi energy, Carrier, Effective mass
  3. Electric conduction, Excitation and relaxation, Diffusion, Lifetime
  4. PN junction, Diffusion potential, Depletion layer, I-V characteristics
  5. Solar cells, LED, Lasers
  6. MOS-FET, Flash memory, CCD
  7. Nanostructures, Nanocrystals, CNT, Nanowires
  8. Molecular orbital and Huckel approximation
  9. Band calculation based on tight-binding approximation
  10. Molecular conductors and graphene
  11. Electric transport under magnetic field
  12. Organic Field-Effect-Transistors
  13. Highly-correlated materials and electronic device
  14. Light-emitting molecules and organic photovoltaics

95049 Organic Electrode Process, 1 credits, Autumn Semester, Even Years

S. Inagi

This lecture will cover the fundamentals and applications of organic electrochemistry. Some of the topics dealt with are as follows:

  1. Introduction to electroorganic synthesis
  2. Direct and indirect electron transfer
  3. Reaction selectivity
  4. Electrogenerated acid and base
  5. Paired electrosynthesis
  6. Electropolymerization
  7. Recent progress in organic electrochemistry

95021 Coordination Chemistry, 2 credits, Autumn Semester, Odd Years

T. Fukushima, T. Koizumi

This course intends to give an overview of coordination chemistry to the graduate students. Recent developments and trends of transition metal-containing compounds and nanomaterials are also discussed. This course covers the following topics.

  1. Introduction of coordination chemistry
  2. Stereochemistry of metal complexes
  3. Synthesis of metal complexes
  4. Reactivity of metal complexes
  5. Electrochemistry of transition metal complexes
  6. Recent topics in coordination chemistry
  7. Synthesis and Properties of Coordination Polymers
  8. Nanomaterials formed by coordination bonds

95059 Applied Electrochemistry, 2 credits, Autumn Semester, Odd Years

Y. Sato, J. Nakamura

Electrochemical sensing devices such as chemical and biochemical sensors, and energy devices such as batteries and fuel cells, will be introduced and discussed with the emphasis on surface and material properties. Based on the fundamental understanding of electrochemical reaction and materials, history of these devices and the technological trend will be also overviewed.

  1. Introduction to battery technology
  2. Introduction to Chemical and Biochemical Sensors
  3. Reactions and performance of batteries
  4. Lithium batteries and their safety
  5. Lithium ion batteries
  6. Electrode design for lithium ion batteries
  7. Fuel cells
  8. Metal air batteireis
  9. Biomaterials for chemical and biosensors
  10. Electrochemical sensors
  11. Affinity sensors (DNA, Proteins etc.)
  12. Micro and nano-sensors
  13. Electrochemical microfluidic devices for bioanalysis
  14. Ubiquitous Sensor Systems

Liberal Arts and General Education(G)

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
96053 Modern Japan 1-0-0 To be announced Spring  
89134 Seminar for cultivating international understandings 0-3-0 K. Kajikawa Autumn  
93059 Historical Review of Intellectual Property 1-0-0 Y. Hayashi Autumn    
36005 Strategic Management of Technology 2-0-0 K. Miyazaki Spring    
95551 IPISE International Communication (ECHEM) I 0-1-0 Supervisor Autumn #1 #2
95552 IPISE International Communication (ECHEM) II 0-1-0 Supervisor Spring #1 #2
95553 IPISE International Communication (ECHEM) III 0-1-0 Supervisor Autumn #1 #2
95554 IPISE International Communication (ECHEM) IV 0-1-0 Supervisor Spring #1 #2
99405 Technical Writing 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99406 Technical Writing 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99412 Technical Writing 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99413 Technical Writing 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99403 Technical Discussion 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99404 Technical Discussion 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99410 Technical Discussion 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99411 Technical Discussion 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99416 Critical Thinking 2-0-0 D. Ricinschi
H. Gonzales		 Autumn    
99415 Scientific Communication 2-0-0 D. Berrar
D. Ricinschi		 Spring    
99417 Global Trends in Science and Technology 2-0-0 H. Gonzales
D. Berrar		 Autumn    
99408 Ethics for Scientists and Engineers 2-0-0 M. Yamamura
Y. Iwamoto		 Autumn    

1)  : Compulsory. None: Optional.

2)  #1: Two of the four subjects, i.e. IPISE International Communication I through IV, must be taken.

3)  #2: Two of the four subjects, i.e. IPISE International Communication I through IV, must be taken in master’s course.

4)  ‘Technical Writing’, ‘Technical Discussion’ can be registered only by the students who belong to IPISE, IGP(A) and Innovative Platform for Education and Research course (IPER).


4-3 Department of Materials Science and Engineering (MSE)

Research Courses

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
96705 IPISE Seminar (MSE) I 2-0-0 Supervisor Autumn
96706 IPISE Seminar (MSE) II 2-0-0 Supervisor Spring
96707 IPISE Seminar (MSE) III 2-0-0 Supervisor Autumn
96708 IPISE Seminar (MSE) IV 2-0-0 Supervisor Spring
96851 IPISE Seminar (MSE) V 2-0-0 Supervisor Autumn Dr.
96852 IPISE Seminar (MSE) VI 2-0-0 Supervisor Spring Dr.
96853 IPISE Seminar (MSE) VII 2-0-0 Supervisor Autumn Dr.
96854 IPISE Seminar (MSE) VIII 2-0-0 Supervisor Spring Dr.
96855 IPISE Seminar (MSE) IX 2-0-0 Supervisor Autumn Dr.
96856 IPISE Seminar (MSE) X 2-0-0 Supervisor Spring Dr.

1)  Compulsory. None: Optional.

2)  Dr: For Doctor’s course student.


Courses by Departments

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
96047 Science and Engineering of Solidification 2-0-0 Shinji KUMAI Spring
(Even years)		    
96048 Characteristics & Applications of Intermetallic Alloys 2-0-0 Yoshisato KIMURA Spring
(Even years)		    
96049 Lattice Defects & Mechanical Properties of Materials 2-0-0 Susumu ONAKA,
Masaharu KATO		 Autumn
(Even years)		    
96050 Diffusion in Alloys 2-0-0 Masanori KAJIHARA Autumn
(Even years)		    
96055 Advanced Course in Design and Fabrication of Micro/Nano Materials 2-0-0 Masato SONE
T.-F. M. CHANG		 Autumn
(Odd years)		    
96058 Introduction to Solid State Science 2-0-0 Katsuro HAYASHI,
Fumihiro WAKAI,
Hidenori HIRAMATSU,
Satoshi SASAKI,
Toshiyuki ATOU,
Kan NAKATSUJI		 Autumn
(Odd years)		    
96059 Optics of Semiconductors and Luminescent Materials 2-0-0 Satoshi MATSUISHI Autumn    
25037 Advanced Course in Nanomaterials I* 2-0-0 Hiroyuki HIRAYAMA,
Takaaki TSURUMI,
Martin Vacha,
Tomoyasu TANIYAMA		 Spring    
25038 Advanced Course in Nanomaterials II* 2-0-0 Junji Watanabe,
Toshikazu TAKATA,
Hideo TAKEZOE,
Yoshio NAKAMURA,
Hideo HOSONO		 Autumn    
25043 Advanced Course in Nanomaterials III* 2-0-0 Michikazu Hara et al. Autumn    
97016 Topics in Innovative Materials Science II** 2-0-0 Y. Matsumoto,
K. Nakamura,
T. Iyoda		 Autumn    
97018 Materials Science 101** 2-0-0 T. Sasagawa
T. Kamiya
M. Azuma		 Autumn
    
97015 Topics in Innovative Materials Science I** 2-0-0 O. Odawara
K. Nagai
M. Azuma		 Spring    
97017 Crystallography for Microstructural Characterization** 2-0-0 T. Fujii Autumn
(Odd Years)		    
97036 Alloy Phase Diagram** 2-0-0 H. Hosoda
T. Inamura		 Autumn
(Even Years)		    
97005 Advanced Photo-Electronic Devices** 2-0-0 Y. Kitamoto,
H. Funakubo,
H. Wada		 Autumn    
89134 Seminar for Cultivating International Understandings*** 0-3-0 K. Kajikawa Autumn  
93059 Historical Review of Intellectual Property**** 1-0-0 Y. Hayashi Autumn    
96715 IPISE Academic Presentation (MSE) I 0-1-0 Supervisor Autumn  
96716 IPISE Academic Presentation (MSE) II 0-1-0 Supervisor Spring  
96717 IPISE Academic Presentation (MSE) III 0-1-0 Supervisor Autumn  
96718 IPISE Academic Presentation (MSE) IV 0-1-0 Supervisor Spring  
96861 IPISE Academic Presentation (MSE) V 0-1-0 Supervisor Autumn  
96862 IPISE Academic Presentation (MSE) VI 0-1-0 Supervisor Spring  
96863 IPISE Academic Presentation (MSE) VII 0-1-0 Supervisor Autumn  
96864 IPISE Academic Presentation (MSE) VIII 0-1-0 Supervisor Spring  
96865 IPISE Academic Presentation (MSE) IX 0-1-0 Supervisor Autumn  
96866 IPISE Academic Presentation (MSE) X 0-1-0 Supervisor Spring  
96555 IPISE Internship (MSE) IA 0-0-1 Department Chair Spring    
96556 IPISE Internship (MSE) IB 0-0-1 Department Chair Autumn    
96557 IPISE Internship (MSE) IIA 0-0-1 Department Chair Spring    
96558 IPISE Internship (MSE) IIB 0-0-1 Department Chair Autumn    
  Courses in other Departments and Courses in Education Academies, except for courses lectured in Japanese.          

1)  : Compulsory. None: Optional.

2)  Dr: For Doctor’s course student.

3)  *: Mainly organized by Department of Organic and Polymeric Materials

4)  **: Mainly organized by Department of Innovative and Engineered Materials

5)  ***: Mainly organized by Department of Electronics and Applied Physics

6)  ****: Mainly organized by Department of Energy Sciences


96047 Science & Engineering of Solidification, 2 credits, Spring Semester, Even years

S. Kumai

The present lecture provides a fundamental knowledge of solidification, from the scientific to the engineering point of view, covering the recent development and future prospects. Basic concepts of driving force for solidification, undercooling, local equilibrium, and interface non-equilibrium are described. A detailed explanation is also made about dendritic and eutectic growth, as well as of peritectic, monotectic and behavior of third phase.

96048 Characteristics &s; Applications of Intermetallic Alloys, 2 credits, Spring Semester, Even years

Y. Kimura

Intermetallic compounds provide very different physical and chemical properties due to a wide variety of their ordered crystal structures. Starting from fundamental characteristics of intermetallic compounds strongly depending on their ordered structures, advanced applications both for structural and functional are covered with considering strategies for the material design.

96049 Lattice Defects & Mechanical Properties of Materials, 2 credits, Autumn Semester, Even years

S. Onaka, M. Kato

Lattice defects and their role on mechanical properties of solid materials are lectured. Topics such as linear elasticity (stress, strain, Hooke’s law) and dislocation theory are included.

96050 Diffusion in Alloys, 2 credits, Autumn Semester, Even years

M. Kajihara

Evolution of microstructure occurs in many alloy systems at elevated temperatures. Such a phenomenon is usually controlled by diffusion. On the basis of Fick’s first and second laws,diffusion can be described mathematically. In the present lecture, various mathematical methods describing diffusion will be explained.

96055 Advanced Course in Design and Fabrication of Micro/Nano Materials, 2 credits, Autumn Semester, Odd years

Masato SONE, T.-F. M. CHANG

Recent methods of material design or precise fabrication in micro/nano scale; lithography, electroplating, CVD, ALD or etc. and applications will be explained.

96058 Introduction to Solid State Science, 2 credits, Autumn Semester, Odd years

Katsuro HAYASHI, Fumihiro WAKAI, Hidenori HIRAMATSU, Satoshi SASAKI, Toshiyuki ATOU, Kan NAKATSUJI

We review several important phenomena in solid state science. It is assumed that the students have been familiar with Chapters 1-7 of Charles Kittel’s “Introduction to Solid State Physics, 8th Edition.”

  1. Semiconductors
  2. Fermi Surfaces and Metals
  3. Superconductivity
  4. Paramagnetism, Ferromagnetism and Antiferromagnetism
  5. Dielectrics and Ferroelectrics
  6. Surface and Interface Physics

96059 Optics of Semiconductors and Luminescent Materials, 2 credits, Autumn Semester, Odd years

Satoshi MATSUISHI

The present lecture provides a fundamental knowledge of optical response of materials, including crystalline insulators and semiconductors, glasses and metals. Starting from classical and quantum models for the light interaction with solid matter, optical phenomena in semiconductors and luminescent materials related to practical applications will be explained.

Liberal Arts and General Education(G)

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
96053 Modern Japan 1-0-0 To be announced Spring  
96551 IPISE International Communication (MSE) I 0-1-0 Supervisor Autumn #1 #2
96552 IPISE International Communication (MSE) II 0-1-0 Supervisor Spring #1 #2
96553 IPISE International Communication (MSE) III 0-1-0 Supervisor Autumn #1 #2
96554 IPISE International Communication (MSE) IV 0-1-0 Supervisor Spring #1 #2
99405 Technical Writing 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99406 Technical Writing 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99412 Technical Writing 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99413 Technical Writing 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99403 Technical Discussion 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99404 Technical Discussion 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99410 Technical Discussion 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99411 Technical Discussion 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99416 Critical Thinking 2-0-0 D. Ricinschi
H. Gonzales		 Autumn    
99415 Scientific Communication 2-0-0 D. Berrar
D. Ricinschi		 Spring    
99417 Global Trends in Science and Technology 2-0-0 H. Gonzales
D. Berrar		 Autumn    
99408 Ethics for Scientists and Engineers 2-0-0 M. Yamamura
Y. Iwamoto		 Autumn    
36005 Strategic Management of Technology 2-0-0 K. Miyazaki Spring    

*)  : Compulsory. None: Optional.

*)  #1: Two of the four subjects, i.e. IPISE International Communication I through IV, must be taken.

*)  #2: Two of the four subjects, i.e. IPISE International Communication I through IV, must be taken in master’s course.

*)  ‘Technical Writing’, ‘Technical Discussion’ can be registered only by the students who belong to IPISE, IGP(A) and Innovative Platform for Education and Research course (IPER).


===== <Advanced Course of Environmental and Energy Science and Engineering> =====

4-4 Department of Environmental Science and Technology (DEPE)

Research Courses

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
98705 IPISE Seminar (DEPE) I 2-0-0 Supervisor Autumn, M1
98706 IPISE Seminar (DEPE) II 2-0-0 Supervisor Spring, M1
98707 IPISE Seminar (DEPE) III 2-0-0 Supervisor Autumn, M2
98708 IPISE Seminar (DEPE) IV 2-0-0 Supervisor Spring, M2
98851 IPISE Seminar (DEPE) V 2-0-0 Supervisor Autumn, D1
98852 IPISE Seminar (DEPE) VI 2-0-0 Supervisor Spring, D1
98853 IPISE Seminar (DEPE) VII 2-0-0 Supervisor Autumn, D2
98854 IPISE Seminar (DEPE) VIII 2-0-0 Supervisor Spring, D2
98855 IPISE Seminar (DEPE) IX 2-0-0 Supervisor Autumn, D3
98856 IPISE Seminar (DEPE) X 2-0-0 Supervisor Spring, D3
98725 IPISE Special Seminar for Environmental Studies (DEPE) I * 1-0-0 Department Chair Autumn, M1    
98726 IPISE Special Seminar for Environmental Studies (DEPE) II * 1-0-0 Department Chair Spring, M1    
98727 IPISE Special Seminar for Environmental Studies (DEPE) III * 3-0-0 Department Chair Autumn, M2    
98744 IPISE Special Seminar for Environmental Studies (DEPE) IV * 1-0-0 Department Chair Spring, M1    
98745 IPISE Special Seminar for Environmental Studies (DEPE) V * 1-0-0 Department Chair Autumn, M1    
98746 IPISE Special Seminar for Environmental Studies (DEPE) VI * 3-0-0 Department Chair Spring, M2    
98715 IPISE Academic Presentation (DEPE) I 0-1-0 Supervisor Autumn, M1
98716 IPISE Academic Presentation (DEPE) II 0-1-0 Supervisor Spring, M1
98717 IPISE Academic Presentation (DEPE) III 0-1-0 Supervisor Autumn, M2
98718 IPISE Academic Presentation (DEPE) IV 0-1-0 Supervisor Spring, M2
98861 IPISE Academic Presentation (DEPE) V 0-1-0 Supervisor Autumn, D1
98862 IPISE Academic Presentation (DEPE) VI 0-1-0 Supervisor Spring, D1
98863 IPISE Academic Presentation (DEPE) VII 0-1-0 Supervisor Autumn, D2
98864 IPISE Academic Presentation (DEPE) VIII 0-1-0 Supervisor Spring, D2
98865 IPISE Academic Presentation (DEPE) IX 0-1-0 Supervisor Autumn, D3
98866 IPISE Academic Presentation (DEPE) X 0-1-0 Supervisor Spring, D3

1)  : Compulsory. None: Optional.

2)  *: The asterisked subjects are provided exclusively for students who belong to Department of Environmental Science and Technology.

(+)Year: The Year recommended to take the subject.

M1: 1st year in Master’s course
M2: 2nd year in Master’s course
D1: 1st year in Doctoral course
D2: 2nd year in Doctoral course
D3: 3rd year in Doctoral course


Courses by Departments

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
98089 Applied Mathematics for Environmental Study 1A 1-0-0 T. Ishikawa Spring    
98090 Applied Mathematics for Environmental Study 1B 1-0-0 T. Nakamura Autumn    
98091 Applied Mathematics for Environmental Study 2A 1-0-0 H. Yamanaka Spring    
98092 Applied Mathematics for Environmental Study 2B 1-0-0 T. Asawa Autumn    
98093 Applied Environmental Science 1A 1-0-0 T. Tamura Spring    
98095 Applied Environmental Science 1B 1-0-0 T. Kinouchi Autumn    
98096 Applied Environmental Science 2A 1-0-0 K. Takeshita,
Y. Kato		 Spring    
98097 Applied Environmental Science 2B 1-0-0 K. Takeshita,
Y. Kato		 Autumn    
98081 International Communication on Environmental Problems I* 2-0-0 S. Nishikizawa,
Y. Sato et al.		 Spring    
98082 International Communication on Environmental Problems II* 2-0-0 K. Yoshikawa,
F. Takahashi et al.		 Spring    
98087 Environmental Impact Assessment I 1-0-0 S. Nishikizawa Autumn    
98088 Environmental Impact Assessment II 1-0-0 T. Murayama, Autumn    
98006 Environmental Turbulence 1-0-0 T. Tamura Autumn    
98083 Evaluation in International Perspective 1-0-0 Y. Sato Autumn    
98016 Structural and Fire Resistant Design of Building Structures 2-0-0 H. Sakata,
undecided		 Autumn    
98027 Earthquake Resistant Limit State Design for Building Structures 2-0-0 S. Yamada,
undecided		 Autumn    
98009 Science and Technology for Atmosphere Environmental Protection 1-0-0 K. Yoshikawa Spring    
98069 Urban Environmental Engineering 1-0-0 T. Asawa Autumn    
98061 Process Dynamics and Control 1-0-0 H. Seki Spring    
98060 Watershed Hydrology 1-0-0 T. Kinouchi Spring    
98053 Open Channel Hydraulics 1-0-0 T. Ishikawa Spring    
98067 Environmental Hydraulics 1-0-0 T. Nakamura Spring    
98068 Exploration Geophysics 1-0-0 H. Yamanaka Spring    
98064 Environmental Modeling 2-0-0 K. Takeshita
Y. Kato		 Spring    
98070 Elastic and Plastic Behaviors of Structural Materials 2-0-0 S. Kono,
Y. Shinohara		 Spring    
98094 Pollutant Control Technology and Process Design 1-0-0 F. Takahashi Spring    
98086 Introduction to Geochemistry 1-0-0 S. Toyoda Autumn    
98098 Environmental Biotechnology 1-0-0 H. Ueda Autumn    
98099 The economics and systems analysis of environment, resources and technology 1-0-0 K. Tokimatsu Autumn    
89134 Seminar for cultivating international understandings 0-3-0 K. Kajikawa Autumn  
93059 Historical Review of Intellectual Property 1-0-0 Y. Hayashi Autumn  
36005 Strategic Management of Technology 2-0-0 K. Miyazaki Spring    

1)  : Compulsory. None: Optional.

2)  *: The asterisked subjects are provided exclusively for students who belong to Department of Environmental Science and Technology.

98089 Applied Mathematics for Environmental Study 1A, 1 credit, Spring Semester

T. Ishikawa

In the first two lectures, idea of “the best approximation” is introduced on the basis of high school mathematics. The idea is applied to a linear differential equation to deduce Galerkin Method in the third lecture. In other lectures, extensions of the method such as relaxation of boundary conditions, the Finite Element Method are introduced. Exercise is considered as an important part of the course to obtain practical meaning of approximation.

98090 Applied Mathematics for Environmental Study 1B, 1 credit, Autumn Semester

T. Nakamura

The lecture focuses on basic aspects in numerical analysis for environmental studies. While some basic acknowledgements on numerical calculation are introduced, approximate solutions of several essential partial differential equations by Finite Difference Method are explained.

98091 Applied Mathematics for Environmental Study 2A, 1 credit, Spring Semester

H. Yamanaka

The lecture focuses on mathematical aspects in environmental data processing. Basic theories on random variable, probability, error analysis, spatial and temporal data processing and least square method are explained with examples of recent actual environmental data.

98092 Applied Mathematics for Environmental Study 2B, 1 credit, Autumn Semester

T. Asawa

The lecture focuses on probability and statistics in environmental data processing. Basic theory on statistical analysis, multivariate analysis, and quantification method are explained with actual examples of processing of recent environmental data.

98093 Applied Environmental Science 1A, 1 credit, Spring Semester

T. Tamura

Regarding the physical dynamics in natural environment of the atmosphere as well as in natural disaster and its mitigation problems, the scientific methods of formulation are explained in views of fundamental and complex phenomena. Also, this lecture gives understanding of the physical mechanism on heat and mass transport problems in feasibility stage and the schemes to solve them.

  1. Fundamental scientific techniques for understanding physical dynamics in the nature
  2. Technical evolution and its concept for solving the complex problems in natural environment

98095 Applied Environmental Science 1B, 1 credit, Autumn Semester

T. Kinouchi

Regarding the physical dynamics in natural environment of water and atmospheric areas as well as in natural disaster and its mitigation problems, the scientific methods of formulation are explained in views of fundamental and complex phenomena. In particular, this lecture focuses on the contaminant transport and kinetics in the aquatic and geospheric environment to acquire knowledge forreal environmental phenomenaand their problem-solving.

  1. Scientific understanding of contaminant transport in the environment
  2. Conservation and transport theory of mass, energy and transport
  3. Formulation and analysis of contaminant transport in the environment

98096 Applied Environmental Science 2A, 1 credit, Spring Semester

K. Takeshita, Y. Kato

The understanding of material transport in the environment is indispensable to consider various environmental problems. Fundamental knowledge of chemistry and chemical engineering is required to analyze and evaluate the mass transport in the environment. In this lecture, the fundamentals of chemistry and chemical engineering for environmental analysis on undergraduate course level are explained.

  1. Fundamentals of chemistry and chemical engineering
  2. Fundamental theory of material transport including chemical and biochemical reactions

98097 Applied Environmental Science 2B, 1 credit, Autumn Semester

K. Takeshita, Y. Kato

The understanding of material transport in the environment is indispensable to consider various environmental problems. Fundamental knowledge of chemistry and chemical engineering is required to analyze and evaluate the mass transport in the environment. In this lecture, the application of chemistry and chemical engineering for environmental analysis on graduated course level are explained.

  1. Application of chemical reaction engineering of reacor design
  2. Applications of material transport theory to environmental analysis

98081 International Communication on Environmental Problems I, 2 credits, Spring Semester

S. Nishikizawa, Y. Sato et al.

We have established the present economical and social system through the overcoming of severe environmental pollutions of air, water and so forth. Those experiences could be suggestive for developing countries as well as taking principal roles with a view to creating a sustainable society in Japan. In this course, students learn fundamental factors and social background by reviewing past environmental pollutions. In addition to lectures, group works and presentations by students in English will be conducted.

98082 International Communication on Environmental Problems II, 2 credits, Spring Semester

K. Yoshikawa, F. Takahashi et al.

A drastic review of Japanese energy strategy has been started after the accident of the Fukushima nuclear power station associated with a big earthquake. In this course, scenarios for Japanese energy supply will be proposed by Japanese students which enable gradual decrease of the dependence on the nuclear power down to zero within 20-30 years. In the case of foreign students, scenarios for energy supply increase in their home countries matching with the economic growth will be proposed without relying on the nuclear power. In the course of preparation of energy supply scenarios, lectures by external professionals, visits to power stations and the group activities mixing Japanese and foreign students will be done.

98087 Environmental Impact Assessment I, 1 credit, Autumn Semester

S. Nishikizawa

Environmental Impact Assessment (EIA) is an important tool for public and private developments toward creating a sustainable society. In this course, students learn EIA theories, challenges and methodswith several case studies. As well as scientific aspects such as forecast and evaluation, democratic aspects relating to public participation will be explained. We will also explore “strategic environmental assessment” as new areas of EIA.

98088 Environmental Impact Assessment II, 1 credit, Autumn Semester

T. Murayama

Environmental Impact Assessment (EIA) is an important tool for public and private development and planning decisions toward creating a sustainable society. In this course, students learn EIA theories, methods, regulations and its historical outline with several case studies. Scientific aspects such as prediction and evaluation methods as well as democratic aspects relating to public participation will be explained. We will discuss about environmental and social consideration for international cooperation in developing countries.

98006 Environmental Turbulence, 1 credit, Autumn Semester

T. Tamura

Various phenomena of the turbulence in nature are discussed in view of atmospheric environment or storm disaster. For their detailed analysis, the theoretical interpretation and the modeling representation are studied. Especially, this lecture elucidates the physical mechanism of complex turbulence with external forcing such as buoyancy or rotation, for understandings of original aspects in an atmospheric boundary layer. Also, for the appropriate numerical simulation, the required mathematical description and physical meaning of turbulence transport are explained. Computer simulation techniques are provided to solve various problems in nature, such as urban heat island, air pollution and storm impact on human society.

  1. Analytical approach of fluid dynamics to atmospheric environments and wind hazard mitigation
  2. Governing equations and their statistical treatment
  3. Physical mechanism of complex turbulence and essence of atmospheric boundary layer
  4. Partial differential equations of propagation problems and their numerical simulation
  5. Turbulence modeling
  6. Filtering technique and large eddy simulations (LES)
  7. Application of turbulence modeling for solving problems in nature

98083 Evaluation in International Perspective, 1 credit, Autumn Semester

Y. Sato

By taking this course, students are expected to deepen their understanding of major evaluation theories, their historical background and their application in the field of international cooperation and science & technology from international perspective. They can also expect to acquire basic evaluation skills through performing evaluation of their chosen topics or meta-evaluation of the existing evaluation reports.

98016 Structural and Fire Resistant Design of Building Structures, 2 credits, Autumn Semester

H. Sakata, undecided

This lecture aims at mastering the synthetic knowledge about a fire-protection and fire-resistance of a building. The fundamental knowledge about a building fire-protection, urban fire-resistance, and a fire-resisting-construction design of a building is explained. Furthermore, the mechanical properties of the main structural materials (concrete and steel which constitute a building-construction) at elevated temperatures is explained.

  1. Fire safety in buildings
  2. Actual circumstances of a fire disaster
  3. Phenomenon of a fire disaster
  4. Fire detection and extinguishing a fire
  5. Evacuation safety under a fire condition
  6. Controlling a fire spread
  7. Mechanical properties of structural materials at elevated temperatures
  8. Structure performance in a fire

98027 Earthquake Resistant Limit State Design for Building Structures, 2 credits, Autumn Semester

S. Yamada, undecided

Earthquake Resistant Limit State Design is a design method based on a balance of input energy by the earthquake and energy absorption capacity of building structures. In this lecture, the basic theory of design method based on a balance of the energy and the evaluation method of earthquake resistant performance of the building structures based on the deformation capacity of members are explained.

  1. Basic theory of the design method based on a balance of the energy
  2. Earthquake input evaluated as the energy input
  3. Hysteresis behavior of the steel material
  4. Ultimate behavior of steel members under cyclic load
  5. Energy absorption capacity of steel members
  6. Damage evaluation of the structure
  7. Damage distribution in the multi-story structure
  8. The relationship between deformation capacity of members and deformation capacity of the frame
  9. Estimation method of the required earthquake resistance
  10. Energy spectrum of earthquake
  11. Outline of the base isolated building structure
  12. Design of the base isolated building structure

98009 Science and Technology for Atmosphere Environmental Protection, 1 credit, Spring Semester

K. Yoshikawa

For atmosphere environmental protection, appropriate combination of various technologies ranging from combustion control, exhaust gas treatment, high efficiency energy conversion and waste management is essential. This lecture first explains the fundamental science of transport phenomena (momentum, energy and mass transportation) which should be base knowledge to understand various atmospheric environmental processes. Then variety of emission control techniques are explained to understand state of the art technologies for atmosphere environmental protection. Finally, new waste management technologies are introduced and students will join discussions on the effective measures for waste management to reduce atmosphere emissions.

98069 Urban Environmental Engineering, 1 credit, Autumn Semester

T. Asawa

Urban environments are influenced by various factors, including the urban structure, buildings and the inhabitants’ activities in the area. The heat island effect is one of the environmental problems in an urbanized area. The effective measures against those environmental problems are required for sustainable urban development and management. This lecture explains the fundamentals of urban and built environment, including the heat island effect and thermal environment, and discusses what we should do for our living environments.

  1. Fundamentals of urban and built environment
  2. Cause of the heat island effect
  3. Theory and measurement of heat balance on urban surfaces
  4. Thermal environment in urban space
  5. Comfort in built environment
  6. Inhabitants’ activities and anthropogenic heat emissions
  7. Urban greening and its effect on the environment

98061 Process Dynamics and Control, 1 credit, Spring Semester

H. Seki

To achieve safe and efficient operations of todayfs highly integrated chemical processing plants, an understanding of the dynamic behavior is important from both process design and process control perspective. With an emphasis on the dynamic nature of chemical processes, the lecture will cover chemical process modeling (material and energy balances, constitutive relationships, etc.), numerical techniques (numerical integration, algebraic equations), and linear and nonlinear systems analysis (Laplace transforms, bifurcation, etc.). State-of-the-art chemical process control techniques will be also introduced.

98060 Watershed Hydrology, 1 credit, Spring Semester

T. Kinouchi

This course focuses on the watershed scale hydrology to understand the movement of water through the hydrologic cycle in relation to environmental characteristics of watersheds. The course covers basic principles of hydrology and the mathematical description of underlying hydrologic processes. We also learn specific hydrologic models and their applications. In some sessions, we pick up a set of papers and assigned students are required to present the summary of each paper including the objective, concept, methodology and findings. All the students are expected to participate in the discussion.

  1. Introduction
  2. Atmospheric water
  3. Subsurface water
  4. Surface flow
  5. Groundwater hydrology
  6. Urban hydrology
  7. Statistical methods in hydrology

98053 Open Channel Hydraulics, 1 credit, Spring Semester

T. Ishikawa

Open Channel Hydraulics is a branch of applied fluid mechanics to support river management improvement works for flood disaster prevention and water environment conservation. This lecture first explains the fundamentals of open channel flow analysis based on the governing equations of fluid dynamics, and describes the important characteristics of river flows. Finally, the application examples of open channel hydraulics to river planning and improvement works.

  1. Governing equations of fluid dynamics
  2. One dimensional equations of open channel hydraulics
  3. One dimensional characteristics of river flows
  4. Two dimensional equations of open channel hydraulics
  5. Secondary flows and sedimentation in rivers
  6. Applications

98067 Environmental Hydraulics, 1 credit, Spring Semester

T. Nakamura

In this lecture, the fundamental aspects of environmental water flows are explained based on the fluid mechanics. In particular, as introduction, derivation of some partial differential equations governing the water flow is explained in detail, and based on their equations, some basic features of the water flow are discussed. Then, as listed below, several important phenomena observed in actual environmental water flows are taken up, and their interesting features are discussed being based on mathematical analysis of the fluid mechanics.

  1. Mechanism of flow instability.
  2. Physics of water surface wave.
  3. Features of density current (Instability, Internal wave).
  4. Mathematical modeling of turbulent effects for the environmental water flows.

98068 Exploration Geophysics, 1 credit, Spring Semester

H. Yamanaka

Exploration geophysics, one of techniques for understanding geoenvironments in shallow and deep soil layers, is explained in this lecture with wide view of applications to disaster prevention, natural resource development, and environmental protection.

98064 Environmental Modeling, 2 credits, Spring Semester

K. Takeshita, Y. Kato

Establishment of mathematical models for water environment is lectured. The derivations of fundamental equations for momentum transfer, heat transfer and mass transfer and the modeling techniques based on the chemical process analysis are explained. These fundamentals are applied to the modeling of practical water environments such as river, lake, basin, ground water and ocean. Topics dealt in the lecture are as follows:

  1. Introduction to environmental modeling
  2. Momentum transfer (fluid dynamics)
  3. Mass transfer (diffusion equation)
  4. Heat transfer
  5. Fundamentals of chemical process analysis
  6. Water environments
  7. Establishment of mathematical models
  8. Validity of mathematical models

98070 Elastic and Plastic Behaviors of Structural Materials, 2 credits, Spring Semester

S. Kono, Y. Shinohara

The elastic and plastic behaviors of the concrete and steel currently most extensively used as a structural material of a high-rise building are explained. In particular, the three-dimensional stress and strain, the three-dimensional constitutive laws (Hooke’s law), the three-dimensional plasticity theory of steel, and the failure criteria of concrete under multiaxial stresses are discussed to acquire an appropriately evaluating knowledge of an analytical result by a three-dimensional FEM.

  1. Introduction
  2. Some basic properties of concrete and steel
  3. Stress in three dimensions
  4. Principal stresses and principal Axes
  5. Strain in three dimensions
  6. Stress-strain relationship in elasticity
  7. Two dimensional problems in elasticity
  8. Yield criteria and stress-strain relationship in plasticity
  9. Failure criteria of concrete
  10. Examples of finite element analysis

98094 Pollutant Control Technology and Process Design, 1 credit, Spring Semester

F. Takahashi

You will learn basic mechanisms of pollution control technologies for environmental protection in this lecture. This helps you understand that any pollution control technologies generate secondary pollution sources like wastewater and solid wastes inevitably, which needs additional treatment and disposal management. The goal of this lecture is to offer you some lessons to understand the importance of system designs for effective and efficient environmental protection. In some practice, you will try to optimize the systemization of pollution control technologies for reasonable and effective environmental protection.

98086 Introduction to Geochemistry, 1 credit, Autumn Semester

S. Toyoda

Geochemistry is a discipline that aims to elucidate origin, constituents, and phenomenon of the earth, solar system, and universe. In this lecture, basic theories and methods for understanding origin and composition of materials of the earth and their cycles are explained from the view point of chemistry.

98098 Environmental Biotechnology, 1 credit, Autumn Semester

H. Ueda

Biotechnology is a key technology in 21st century in many areas including environmental sciences. Environmental biotechnology is defined as the development, use and regulation of biological systems for remediation of contaminated environments (land, air, water), and for environment-friendly processes (green manufacturing technologies and sustainable development). The first half of this lecture introduces biotechnology in general, and then focuses on its application in environmental areas.

98099 The economics and systems analysis of environment, resources and technology, 1 credit, Autumn Semester

K. Tokimatsu

This course provides an introduction and related basic theory of economics and systems analysis of environment, resources and technology. The coverage of the topics is very broad as listed below, with which you could be faced after your graduation. The level of this course is around middle class, between upper class of undergraduates and master course students.

  1. Energy technology assessment (engineering economics) and innovation (techno-economics)
  2. Energy economics and systems analysis (econometrics)
  3. Economic assessment of global warming (macroeconomics)
  4. Material flow analysis (MFA), lifecycle impact assessment (LCIA) and environmental accounting
  5. Mineral resource economics, waste economics
  6. Environmental valuation and cost-benefit analysis (microeconomics)
  7. Economics of sustainable development (development economics)

98725 IPISE Special Seminar for Environmental Studies (DEPE) I, 1 credit, Autumn Semester

Department Chair

Department chair provides each student with an individual training program to acquire knowledge and techniques for environmental research which will be necessary for the student’s research in the doctoral program. Student’s achievement is evaluated by three referees including the academic advisor. This subject is provided exclusively for students who belong to Department of Environmental Science and Technology.

98726 IPISE Special Seminar for Environmental Studies (DEPE) II, 1 credit, Spring Semester

Department Chair

Department chair provides each student with an individual training program to acquire knowledge and techniques for environmental research which will be necessary for the student’s research in the doctoral program. Student’s achievement is evaluated by three referees including the academic advisor. This subject is provided exclusively for students who belong to Department of Environmental Science and Technology.

98727 IPISE Special Seminar for Environmental Studies (DEPE) III, 3 credits, Autumn Semester

Department Chair

Department chair provides each student with an individual training program to acquire knowledge and techniques for environmental research which will be necessary for the student’s research in the doctoral program. Student’s achievement is evaluated by three referees including the academic advisor. This subject is provided exclusively for students who belong to Department of Environmental Science and Technology.

98744 IPISE Special Seminar for Environmental Studies (DEPE) IV, 1 credit, Spring Semester

Department Chair

Department chair provides each student with an individual training program to acquire knowledge and techniques for environmental research which will be necessary for the student’s research in the doctoral program. Student’s achievement is evaluated by three referees including the academic advisor. This subject is provided exclusively for students who belong to Department of Environmental Science and Technology.

98745 IPISE Special Seminar for Environmental Studies (DEPE) V, 1 credit, Autumn Semester

Department Chair

Department chair provides each student with an individual training program to acquire knowledge and techniques for environmental research which will be necessary for the student’s research in the doctoral program. Student’s achievement is evaluated by three referees including the academic advisor. This subject is provided exclusively for students who belong to Department of Environmental Science and Technology.

98746 IPISE Special Seminar for Environmental Studies (DEPE) VI, 3 credits, Spring Semester

Department Chair

Department chair provides each student with an individual training program to acquire knowledge and techniques for environmental research which will be necessary for the student’s research in the doctoral program. Student’s achievement is evaluated by three referees including the academic advisor. This subject is provided exclusively for students who belong to Department of Environmental Science and Technology.

Liberal Arts and General Education(G)

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
96053 Modern Japan 1-0-0 To be announced Spring  
98551 IPISE International Communication (DEPE) I 0-1-0 Supervisor Autumn # #
98552 IPISE International Communication (DEPE) II 0-1-0 Supervisor Spring # #
98553 IPISE International Communication (DEPE) III 0-1-0 Supervisor Autumn # #
98554 IPISE International Communication (DEPE) IV 0-1-0 Supervisor Spring # #
98555 IPISE Internship (DEPE) IA 0-0-1 Department Chair Spring    
98556 IPISE Internship (DEPE) IB 0-0-1 Department Chair Autumn    
98557 IPISE Internship (DEPE) IIA 0-0-2 Department Chair Spring    
98558 IPISE Internship (DEPE) IIB 0-0-2 Department Chair Autumn    
99405 Technical Writing 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99406 Technical Writing 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99412 Technical Writing 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99413 Technical Writing 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99403 Technical Discussion 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99404 Technical Discussion 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99410 Technical Discussion 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99411 Technical Discussion 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99416 Critical Thinking 2-0-0 D. Ricinschi
H. Gonzales		 Autumn    
99415 Scientific Communication 2-0-0 D. Berrar
D. Ricinschi		 Spring    
99417 Global Trends in Science and Technology 2-0-0 H. Gonzales
D. Berrar		 Autumn    
99408 Ethics for Scientists and Engineers 2-0-0 M. Yamamura
Y. Iwamoto		 Autumn    

1)  : Compulsory. None: Optional.

2)  #: Two of the four subjects, IPISE International Communication I through IV, must be taken.

3)  ‘Technical Writing’, ‘Technical Discussion’ can be registered only by the students who belong to IPISE, IGP(A) and Innovative Platform for Education and Research course (IPER).


4-5 Department of Built Environment (ENVENG)

Research Courses

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
92705 IPISE Seminar (ENVENG) I 2-0-0 Supervisor Autumn, M1
92706 IPISE Seminar (ENVENG) II 2-0-0 Supervisor Spring, M1
92707 IPISE Seminar (ENVENG) III 2-0-0 Supervisor Autumn, M2
92708 IPISE Seminar (ENVENG) IV 2-0-0 Supervisor Spring, M2
92851 IPISE Seminar (ENVENG) V 2-0-0 Supervisor Autumn, D1 Dr.
92852 IPISE Seminar (ENVENG) IV 2-0-0 Supervisor Spring, D1 Dr.
92853 IPISE Seminar (ENVENG) VII 2-0-0 Supervisor Autumn, D2 Dr.
92854 IPISE Seminar (ENVENG) VIII 2-0-0 Supervisor Spring, D2 Dr.
92855 IPISE Seminar (ENVENG) IX 2-0-0 Supervisor Autumn, D3 Dr.
92856 IPISE Seminar (ENVENG) X 2-0-0 Supervisor Spring, D3 Dr.

1)  : Compulsory. None: Optional.

2)  Dr: For Doctor’s course student.


Courses by Departments

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
92004 Design Theory of Visual Environment II 2-0-0 Y. Nakamura Autumn
(Odd Year)		    
92008 Basics and Applications of Stochastic Processes 1-1-0 H. Morikawa Spring    
92010 Intelligent Adaptive Systems 2-0-0 H. Furuya Spring
(Odd Year)		    
92022 Space Environment Systems 2-0-0 H. Furuya Spring
(Even Year)		    
92033 Strong Motion Prediction 1-0-0 S. Midorikawa Spring    
92035 City/Transport Planning and the Environment 1-0-0 Y. Muromachi Autumn    
92037 Environmental Hazard and Human Behavior 1-0-0 R. Ohno Autumn    
92038 Passive Control of Structures against Earthquakes 1-0-0 K. Kasai Autumn    
92023 Advanced Analysis and Design of Structures Considering Material Nonlinearity 2-0-0 K. Kasai Spring    
92043 Advanced Analysis and Design of Structures Considering Geometrical & Material Nonlinearities 1-0-0 S. Motoyui Autumn (Odd Year)    
92046 Earthquake and Tsunami Disaster Reduction 1-0-0 H. Morikawa,
H. Yamanaka,
S. Takahashi,
A. Takahashi,
S. Yamada		 Autumn    
92047 Theory of Regional Planning Process 2-0-0 T. Yai Spring
(Even Year)		    
92048 Environmental Transportation Engineering 1-0-0 T. Yai Autumn
(Odd Year)		    
61081 Transportation Network Analysis (Cf. Department of Civil Engineering) 2-0-0 Y. Asakura Autumn
(Even Year)		    
61066 Transportation Economics (Cf. Department of Civil Engineering) 1-0-0 D. Fukuda Autumn
(Even Year)		    
61014 Advanced Mathematical Methods for Infrastructure and Transportation Planning (Cf. Department of Civil Engineering) 2-0-0 D. Fukuda Spring
(Odd Year)		    
62004 History of Architecture I (Cf. Department of Architecture and Building Engineering) 2-0-0 D. B. Stewart,
H. Fujioka		 Spring    
62005 History of Architecture II (Cf. Department of Architecture and Building Engineering) 2-0-0 D. B. Stewart,
H. Fujioka		 Autumn    
62003 Architectural Preservation and Renovation 2-0-0 H. Fujioka Spring    
62053 Architectural Programming 2-0-0 K. Yasuda Spring    
62054 Architectural Design Studio I 0-0-2 K. Yasuda Spring    
62055 Architectural Design Studio II 0-0-2 K. Yasuda Autumn    
98068 Exploration Geophysics 1-0-0 H. Yamanaka Spring    
92715 IPISE Academic Presentation (ENVENG) I 0-1-0 Supervisor Autumn, M1
92716 IPISE Academic Presentation (ENVENG) II 0-1-0 Supervisor Spring, M1
92717 IPISE Academic Presentation (ENVENG) III 0-1-0 Supervisor Autumn, M2
92718 IPISE Academic Presentation (ENVENG) IV 0-1-0 Supervisor Spring, M2
92861 IPISE Academic Presentation (ENVENG) V 0-1-0 Supervisor Autumn, D1 Dr.
92862 IPISE Academic Presentation (ENVENG) VI 0-1-0 Supervisor Spring, D1 Dr.
92863 IPISE Academic Presentation (ENVENG) VII 0-1-0 Supervisor Autumn, D2 Dr.
92864 IPISE Academic Presentation (ENVENG) VIII 0-1-0 Supervisor Spring, D2 Dr.
92865 IPISE Academic Presentation (ENVENG) IX 0-1-0 Supervisor Autumn, D3 Dr.
92866 IPISE Academic Presentation (ENVENG) X 0-1-0 Supervisor Spring, D3 Dr.
92555 IPISE Internship (ENVENG) IA 0-0-1 Department Chair Spring    
92556 IPISE Internship (ENVENG) IB 0-0-1 Department Chair Autumn    
92557 IPISE Internship (ENVENG) IIA 0-0-2 Department Chair Spring    
92558 IPISE Internship (ENVENG) IIB 0-0-2 Department Chair Autumn    
89134 Seminar for cultivating international understandings(Cf. Department of Electronics and Applied Physics) 0-3-0 Chair K. Kajikawa Autumn  
93059 Historical Review of Intellectual Property(Cf. Department of Energy Sciences) 1-0-0 Chair Y. Hayashi Autumn    

1)  : Compulsory. None: Optional.

2)  Dr: For Doctor’s course student.


92004 Design Theory of Visual Environment II, 2 Credits, Autumn Semester, Odd Years

Y. Nakamura

This course provides the students with simulation technique and evaluation technique of visual environment, which are essential for architectural and environmental design. The students also obtain the ability to design visual environment with deep understanding of relation between real designed environment by famous architects and appearance of those real environment. Basically students who have obtained the credit of ‘Design theory of visual environment 1’ can only join this class.

92008 Basics and Applications of Stochastic Processes, 2 Credits, Spring Semester

H. Morikawa

This course discusses the basic theory of probability and stochastic process with some applications to the earthquake engineering. As the applications, techniques of analysis for array observation data of microtremors are dealt with: that is, spatial auto-correlation (SPAC) method and so on. The students are encouraged to study with the course “Introduction to time-frequency analysis”. The grading policy is based on a project and its presentation.

92010 Intelligent Adaptive Systems, 2 Credits, Spring Semester, Odd Years

H. Furuya

Basic philosophy and methodology for designing advanced structural systems as intelligent/smart systems and adaptive structure systems. Optimization techniques, multidisciplinary optimization, heuristic design methods as Genetic Algorithms and Neural Network, and structural optimization. Sensitivity analysis and computational algorithms. Knowledge of analytical mathematics and structural analysis, and experience for computational programming are strongly recommended.

  1. Basic Concepts of Numerical Optimization for Engineering Design
  2. Unconstrained Function Optimization
  3. Linear Programming
  4. Constrained Function Minimization Technique
  5. Direct Methods
  6. Approximation Techniques
  7. Multi-Objective Optimization
  8. Structural Optimization and Multi-disciplinary Optimization

92022 Space Environment Systems, 2 Credits, Spring Semester, Even Years

H. Furuya

The mechanics of multi-body structure systems is treated to analyze the dynamics of space satellites, deployable space structures, linked space manipulators, and etc. Active control of the multi-body systems in the space environment is also introduced. The treatments of kinematics, generalized coordinates, holonomic/non-holonomic constraints are discussed. A good background in mechanics, vector analyses, and differential equations is assumed.

  1. Differentiation of Vectors
  2. Kinematics
  3. Mass Distribution
  4. Generalized Forces
  5. Energy Functions
  6. Formulation of Equations of Motion
  7. Extraction of Information from Equations of Motion

92033 Strong Motion Prediction, 1 Credit, Spring Semester

S. Midorikawa

The subject aims to introduce methodologies for strong motion prediction by which the design earthquake motion for seismic design of structures is specified. Topics dealt in this course include

  1. Observation of strong ground motion
  2. Local site effects on ground motion
  3. Empirical prediction methods
  4. Theoretical and Semi-empirical prediction methods
  5. Seismic hazard maps

92035 City/Transport Planning and the Environment, 1 Credit, Autumn Semester

Y. Muromachi

Following introduction, this course focuses on air pollution, global warming, noise and other elements of the environment which city/transport planning should cover. Theoretical issues such as externality and public goods as well as practical concerns such as EIA are also discussed.

92037 Environmental Hazard and Human Behavior, 1 Credit, Autumn Semester

R. Ohno

The primary purpose of this course is to provide students with an understanding of human perception and response to the environmental disasters. The applicability of current Environment-Behavior theories to environmental policy, planning, and design is also discussed.

92038 Passive Control of Structures against Earthquakes, 1 Credit, Autumn Semester

K. Kasai

This course discusses various methods to evaluate effectiveness of the passive control dampers and building framing schemes. Characteristics of four main types of dampers are explained. Design and analytical methods for three types of framing systems having distinct architectural features, damper connecting schemes, as well as control efficiencies are explained. Topics are as follows:

  1. Fundamental Theory on Passive Control.
  2. Mechanical Characteristics of Dampers
  3. Framing Systems and Their Control Efficiencies
  4. Analytical Methods for Passive Control Dampers and Systems
  5. Design Methods for Passive Control Dampers and Systems

92023 Advanced Analysis and Design of Structures Considering Material Nonlinearity, 2 Credits, Spring Semester, Even Years

K. Kasai

This course discusses nonlinear force-deformation characteristics of structural members/materials and their effects on performance of the structural systems. Various static and dynamic analysis methods will be presented. Homework assignments provide extensive hands-on experience of the analytical methods, and they are designed to cultivate studentsf physical understanding of the nonlinear behavior. Topics are as follows:

  1. Review of Linear Matrix Structural Analysis Methods.
  2. Nonlinear Analysis Strategies for Truss Systems.
  3. Nonlinear Beam Elements.
  4. Nonlinear Analysis Strategies for Frames with Beam Elements.
  5. Nonlinear Dynamic Analysis Methods.
  6. Linear Analysis Using Finite Elements (may replace Chap. 5).

92043 Advanced Analysis and Design of Structures Considering Geometrical & Material Nonlinearities, 1 Credit, Autumn Semester, Odd Years

S. Motoyui

This course discusses analytical methods to simulate collapse behavior of building structures. Particularly, it presents treatment of both geometrical nonlinearity and complex material nonlinearity which are essential in these analytical methods.

  1. Formulation of Geometrical Nonlinearity with finite rotation.
  2. Co-rotational Beam Element including Geometrical Nonlinearity

92046 Earthquake and Tsunami Disaster Reduction, 1 Credit, Autumn Semester

H. Yamanaka, H. Morikawa, S. Takahashi, A.Takahashi, S. Yamada

To mitigate the earthquake and tsunami disaster, it is important to know them. This class is devoted to make the lecture with respect to the basics of earthquake and tsunami disaster and their mitigation. The topics of this class are follows:

  1. Ground Motion
  2. Earthquake Disaster
  3. Tsunami Science
  4. Risk Management Earthquake
  5. Real-time Information
  6. Earthquake Hazard Mitigation
  7. Tsunami Hazard Mitigation

92047 Theory of Regional Planning Process, 2 Credits, Spring Semester, Even years

T. Yai

Systems of Regional Planning and Transportation Planning are studied in this class. To achieve a goal of the class, first we learn about those systems in Europe, USA and Japan. Then we study on the fundamental principle of planning process and regulations/institutions. We discuss on the citizen participatory process for those planning fields. This class will cover SEA (Strategic Environmental Assessment) and refer to litigation against governmental decision at administrative court system in Japan. Besides, planning practices will be discussed with students during the class. The students are required to make two presentations by reviewing the specific planning system and its process in any country or region. The content of the class is as follows: 1) Overview, 2) National and Regional Planning systems in Japan, 3) Planning systems in Europe and USA, 4) Fundamental theory of planning process, 5) Citizen Participation and Public Involvement, 6) Administrative court system, 7) Planning and SEA process.

92048 Environmental Transportation Engineering, 1 Credit, Autumn Semester, Odd years

T. Yai

This class covers transportation systems such as aviation, expressway, highway, public transport, and bicycle. The environmental improvements related to those systems are focused and advanced topics are discussed in the class

61081 Transportation Network Analysis, 2 Credits, Autumn Semester, Even years

Y. Asakura

(Cf. Department of Civil Engineering)

61066 Transportation Economics, 1 Credits, Autumn Semester, Even years

D. Fukuda

(Cf. Department of Civil Engineering)

61014 Advanced Mathematical Methods for Infrastructure and Transportation Planning, 2 Credits, Spring Semester, Odd years

D. Fukuda

(Cf. Department of Civil Engineering)

62004 History of Architecture I, 2 Credits, Spring Semester

D. B. Stewart, H. Fujioka

(Cf. Department of Architecture and Building Engineering)

62005 History of Architecture II, 2 Credits, Autumn Semester

D. B. Stewart, H. Fujioka

(Cf. Department of Architecture and Building Engineering)

62003 Architectural Preservation and Renovation, 2 Credits, Spring Semester

H. Fujioka

(Cf. Department of Architecture and Building Engineering)

62053 Architectural Programming, 2 Credits, Spring Semester

K. Yasuda

(Cf. Department of Architecture and Building Engineering)

62054 Architectural Design Studio I, 2 Credits, Spring Semester

K. Yasuda

(Cf. Department of Architecture and Building Engineering)

62055 Architectural Design Studio II, 2 Credits, Autumn Semester

K. Yasuda

(Cf. Department of Architecture and Building Engineering)

98068 Exploration Geophysics, 1 Credits, Spring Semester

H. Yamanaka

(Cf. Department of Environmental Science and Technology)

Liberal Arts and General Education(G)

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
96053 Modern Japan 1-0-0 To be announced Spring  
92551 IPISE International Communication (ENVENG) I 0-1-0 Supervisor Autumn #  
92552 IPISE International Communication (ENVENG) II 0-1-0 Supervisor Spring #  
92553 IPISE International Communication (ENVENG) III 0-1-0 Supervisor Autumn #  
92554 IPISE International Communication (ENVENG) IV 0-1-0 Supervisor Spring #  
99405 Technical Writing 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99406 Technical Writing 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99412 Technical Writing 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99413 Technical Writing 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99403 Technical Discussion 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99404 Technical Discussion 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99410 Technical Discussion 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99411 Technical Discussion 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99416 Critical Thinking 2-0-0 D. Ricinschi
H. Gonzales		 Autumn    
99415 Scientific Communication 2-0-0 D. Berrar
D. Ricinschi		 Spring    
99417 Global Trends in Science and Technology 2-0-0 H. Gonzales
D. Berrar		 Autumn    
99408 Ethics for Scientists and Engineers 2-0-0 M. Yamamura
Y. Iwamoto		 Autumn    
36005 Strategic Management of Technology 2-0-0 K. Miyazaki Spring    

1)  : Compulsory. None: Optional.

2)  # : Two of the four subjects, i.e. IPISE International Communication I through IV, must be taken

3)  ‘Technical Writing’, ’Technical Discussion’ can be registered only by the students who belong to IPISE, IGP(A) and Innovative Platform for Education and Research course (IPER).


4-6 Department of Energy Sciences (DES)

Required numbers of credits for completion of the Master’s program (for students who entered after April, 2012): 34 credits or more from the Graduate school courses and must meet additional requirements below;
(1) 12 credits from Research Courses provided in the Department of Energy Sciences,
(2) 12 credits or more from Courses by Departments provided in the Department of Energy Sciences,
(3) 4 credits or more from Courses by Departments provided by the other departments,
(4) 2 credits or more from Liberal Arts and General Education(G).
For more detailed information, please contact your academic advisor and department chair.

Research Courses

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
93705 IPISE Seminar (DES) I 2-0-0 Supervisor Autumn, M1
93706 IPISE Seminar (DES) II 2-0-0 Supervisor Spring, M1
93707 IPISE Seminar (DES) III 2-0-0 Supervisor Autumn, M2
93708 IPISE Seminar (DES) IV 2-0-0 Supervisor Spring, M2
93851 IPISE Seminar (DES) V 2-0-0 Supervisor Autumn, D1 Dr.
93852 IPISE Seminar (DES) VI 2-0-0 Supervisor Spring, D1 Dr.
93853 IPISE Seminar (DES) VII 2-0-0 Supervisor Autumn, D2 Dr.
93854 IPISE Seminar (DES) VIII 2-0-0 Supervisor Spring, D2 Dr.
93855 IPISE Seminar (DES) IX 2-0-0 Supervisor Autumn, D3 Dr.
93856 IPISE Seminar (DES) X 2-0-0 Supervisor Spring, D3 Dr.
93715 IPISE Academic Presentation (DES) I 0-1-0 Supervisor Autumn, M1
93716 IPISE Academic Presentation (DES) II 0-1-0 Supervisor Spring, M1
93717 IPISE Academic Presentation (DES) III 0-1-0 Supervisor Autumn, M2
93718 IPISE Academic Presentation (DES) IV 0-1-0 Supervisor Spring, M2
93861 IPISE Academic Presentation (DES) V 0-1-0 Supervisor Autumn, D1  
93862 IPISE Academic Presentation (DES) VI 0-1-0 Supervisor Spring, D1  
93863 IPISE Academic Presentation (DES) VII 0-1-0 Supervisor Autumn, D2  
93864 IPISE Academic Presentation (DES) VIII 0-1-0 Supervisor Spring, D2  
93865 IPISE Academic Presentation (DES) IX 0-1-0 Supervisor Autumn, D3  
93866 IPISE Academic Presentation (DES) X 0-1-0 Supervisor Spring, D3  

1)  : Compulsory. None: Optional.

2)  Dr: For Doctoral course student.

(+) Year: The Year recommended to take the subject.

M1: 1st year in Master’s course
M2: 2nd year in Master’s course
D1: 1st year in Doctoral course
D2: 2nd year in Doctoral course
D3: 3rd year in Doctoral course

Courses by Departments

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
93559 Fundamentals for Energy Sciences (DES) 2-0-0 Eiki HOTTA,
Tetsuji OKAMURA,
Hiroshi AKATSUKA,
Jun HASEGAWA		 Autumn
(Odd Years)		    
93560 Fundamentals for Energy Conversion (DES) 2-0-0 Yoshihiro OKUNO,
Keiko WAKI,
Yasuo HASEGAWA		 Autumn
(Even Years)		    
93561 Fundamentals for Energy and Environment (DES) 2-0-0 Takao NAGASAKI,
Feng XIAO,
Yoshiyuki OGURI,
Yoshihisa MATSUMOTO		 Autumn (Even Years)    
93562 Fundamentals for Nuclear Energy Sources (DES) 2-0-0 Toshiyuki KOHNO,
Kazuhiko HORIOKA		 Autumn
(Odd Years)		    
93021 Fundamentals for Plasma Science 2-0-0 Akitoshi OKINO,
Eiki HOTTA,
Kazuhiko HORIOKA		 Autumn
(Even Years) 		   
93029 Numerical Simulation for Fluid Dynamics 2-0-0 Feng XIAO,
Takao NAGASAKI,
Takayuki AOKI		 Spring
(Odd Years)		    
93047 Advanced Course of Energy Science and Engineering 2-0-0 Academic Advisors Autumn
(Even Years)		    
93057 Specific Interdisciplinary Subject in Energy Sciences A 0-2-0 Yoshihiro OKUNO Spring
93058 Specific Interdisciplinary Subject in Energy Sciences B 0-2-0 Yoshihiro OKUNO Autumn
89134 Seminar for Cultivating International Understandings 0-3-0 K. Kajikawa Autumn  
93059 Historical Review of Intellectual Property 1-0-0 Y. Hayashi Autumn  
36005 Strategic Management of Technology 2-0-0 K. Miyazaki Spring    
93731 IPISE Advanced Experiments and Exercises (DES) I 0-0-1 Supervisor Autumn, M1
93732 IPISE Advanced Experiments and Exercises (DES) II 0-0-1 Supervisor Spring, M1
93733 IPISE Advanced Experiments and Exercises (DES) III 0-0-1 Supervisor Autumn, M2
93734 IPISE Advanced Experiments and Exercises (DES) IV 0-0-1 Supervisor Spring, M2
93555 IPISE Internship (DES) IA 0-0-1 Department Chair Spring    
93556 IPISE Internship (DES) IB 0-0-1 Department Chair Autumn    
93557 IPISE Internship (DES) IIA 0-0-2 Department Chair Spring    
93558 IPISE Internship (DES) IIB 0-0-2 Department Chair Autumn    
  Courses in other Departments and Courses in Education Academies, except for courses lectured in Japanese.          

1)  : Compulsory. None: Optional.

2)  Dr: For Doctoral course student.

(+) Year: The Year recommended to take the subject.

M1: 1st year in Master’s course
M2: 2nd year in Master’s course
D1: 1st year in Doctoral course
D2: 2nd year in Doctoral course
D3: 3rd year in Doctoral course

3)  : This course can only be registered by the students of the ACEEES, and must be registered from other Departments.


93559 Fundamentals for Energy Sciences (DES), 2 Credits, Autumn Semester, Odd Years

E. Hotta, T. Okamura, H. Akatsuka, J.Hasegawa

This subject provides the fundamental knowledge, which is required of all the students in the Department of Energy Sciences, of Electromagnetics, Circuit theory, Thermodynamics, Statistical thermodynamics, Fluid flow, Quantum mechanics, and Special theory of relativity.

  1. Basic laws of electromagnetics 1 (Electrostatics)
  2. Basic laws of electromagnetics 2 (Magnetostatics)
  3. Basic theory of electrical circuit 1 (DC circuit)
  4. Basic theory of electrical circuit 2 (AC circuit and elements)
  5. Basic laws of thermodynamics and fundamentals of heat engine
  6. Fundamentals of statistical thermodynamics (Maxwell - Boltzmann distribution)
  7. Fundamentals of heat transfer phenomena
  8. Fundamental equations for fluid flow
  9. Atomic physics based upon quantum mechanics - Schroedinger equation and wave mechanics
  10. Harmonic oscillator by wave and matrix mechanics
  11. Uncertainty principle and principle of quantum mechanics
  12. Principle of special theory of relativity 1 - Lorentz transformation
  13. Principle of special theory of relativity 2 - Special relativistic dynamics and electromagnetics

93560 Fundamentals for Energy Conversion (DES), 2 Credits, Autumn Semester, Even Years

Y. Okuno, K. Waki, Y. Hasegawa

The lecture provides fundamental knowledge on energy conversion. The process of energy conversion is comprehensively discussed based on electrical, mechanical and chemical phenomena. This lecture also covers current technologies for converting heat, light and chemical energy into electrical energy and state of the art developments on the energy system. The major topics are fundamentals and developments in magneto-hydro-dynamic (MHD) electrical power generation, fuel cells, solar cells, capacitors, and distributed energy systems.

93561 Fundamentals for Energy and Environment (DES), 2 Credits, Autumn Semester, Even Years

T. Nagasaki, F. Xiao, Y. Oguri, Y. Matsumoto

This course provides fundamental knowledge on the energy and environment related issues. The major topics include the fundamentals of thermodynamics and fluid dynamics relating to energy and environment, global energy balance, environmental problems and their assessment for regional and global atmosphere, atmospheric diffusion and numerical modeling, emission control of environmental pollutant due to fossil fuels, energy utilization and the environmental loading, utilization of nuclear energy and its impact on environment, biological effects of radiation and underlying molecular mechanisms.

93562 Fundamentals for Nuclear Energy Sources (DES), 2 Credits, Autumn Semester, Odd Years

T. Kohno, K. Horioka

The lecture provides fundamental knowledge on nuclear energy systems. This includes nuclear physics, plasma physics, engineering aspects of nuclear power plants, and issues for fusion reactors. A prospect of future energy systems and related environmental issues are also discussed.

93021 Fundamentals for Plasma Science, 2 Credits, Autumn Semester, Even Years

A. Okino, E. Hotta, K. Horioka

This course offers knowledge on fundamentals for plasma science and technology. It includes plasma generation, governing equations of plasmas, magneto hydrodynamics, characteristics of plasma, plasma diagnostics and recent topics in plasma applications.

93029 Numerical Simulation for Fluid Dynamics, 2 Credits, Spring Semester, Odd Years

F. Xiao, T. Nagasaki, T. Aoki

This English course presents the fundamental knowledge and applications of computational fluid dynamics. The students are expected to be able to use numerical methods to solve some typical problems in fluid dynamics through class instructions, exercises and programming practices.

93047 Advanced Course of Energy Science and Engineering, 2 Credits, Autumn Semester, Even Years

Academic Advisors (Dept. of Energy Sciences)

This course aims to broaden the knowledge on energy science and engineering. The students are provided an overview on trends and state-of-the-art technology in the field of energy science.

93057 (A), 93058 (B) Specific Interdisciplinary Subject in Energy Sciences A, B, 2 Credits, (A) Spring Semester, (B) Autumn Semester

Y. Okuno

Understandings of energy environment science, energy conversion engineering, high energy density science, such as advanced technology of energy production, conversion, transportation and utilization, are the key concepts to bring about technology breakthroughs relating to fundamental energy and environmental issues. This exercise/drill course utilizes a self-study approach on the subjects for students seeking to broaden their knowledge on Energy Sciences and to help acquire sufficient problem-solving skills to conduct research on advanced technology of energy production, conversion, transportation and utilization.

93059 Historical Review of Intellectual Property, 1 Credit, Autumn Semester

Y.Hayashi

The lecture provides a historical review of the patent system. It consists of the establishment of the first patent law in Venetia, the importance of the patent for the Industrial revolution in British, and for developing new frontiers in America. The beginning of the Japanese Patent system in Meiji is also included.

93705-93708, 93851-93856 IPISE Seminar (DES) I-X, 2 Credits (for each)

I, III, V, VII, IX : Autumn Semester; II, IV, VI, VIII, X : Spring Semester
Supervisor

This seminar is given at laboratory of student’s academic advisor, and conducted through reading and introducing original papers, reading of selected books, practicing presentation/discussion on scientific meeting

93715-93718, 93861-93866 IPISE Academic Presentation (DES) I-X, 1 Credits (for each)

I, III, V, VII, IX : Autumn Semester; II, IV, VI, VIII, X : Spring Semester
Supervisor

This course provides an opportunity for student to give her/his presentation on their progress of research activities in front of her/his supervisor. This includes presentations in domestic and/or international scientific meetings, symposiums, and/or seminars on her/his research field.

93731-93734 IPISE Advanced Experiments and Exercises (DES) I-IV, 1 Credits (for each)

I, III : Autumn Semester; II, IV : Spring Semester
Supervisor

This course is given at the laboratory of student’s academic advisor, and conducted through discussion on the research field including the presentation on her/his progress of study concerning their Mater thesis.

Liberal Arts and General Education(G)

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
96053 Modern Japan 1-0-0 To be announced Spring  
93551 IPISE International Communication (DES) I 0-1-0 Supervisor Autumn #  
93552 IPISE International Communication (DES) II 0-1-0 Supervisor Spring #  
93553 IPISE International Communication (DES) III 0-1-0 Supervisor Autumn #  
93554 IPISE International Communication (DES) IV 0-1-0 Supervisor Spring #  
99405 Technical Writing 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99406 Technical Writing 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99412 Technical Writing 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99413 Technical Writing 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99403 Technical Discussion 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99404 Technical Discussion 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99410 Technical Discussion 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99411 Technical Discussion 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99416 Critical Thinking 2-0-0 D. Ricinschi
H. Gonzales		 Autumn    
99415 Scientific Communication 2-0-0 D. Berrar
D. Ricinschi		 Spring    
99417 Global Trends in Science and Technology 2-0-0 H. Gonzales
D. Berrar		 Autumn    
99408 Ethics for Scientists and Engineers 2-0-0 M. Yamamura
Y. Iwamoto		 Autumn    

1)  : Compulsory. None: Optional.

2)  #: Two of the four subjects, i.e. IPISE International Communication I through IV, must be taken.

3)  ‘Technical Writing’, ‘Technical Discussion’ can be registered only by the students who belong to IPISE, IGP(A) and Innovative Platform for Education and Research course (IPER).


4-7 Department of Environmental Chemistry and Engineering (CHEMENV)

Research Courses

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
87705 IPISE Seminar (CHEMENV) I 2-0-0 Supervisor Autumn, M1
87706 IPISE Seminar (CHEMENV) II 2-0-0 Supervisor Spring, M1
87707 IPISE Seminar (CHEMENV) III 2-0-0 Supervisor Autumn, M2
87708 IPISE Seminar (CHEMENV) IV 2-0-0 Supervisor Spring, M2
87851 IPISE Seminar (CHEMENV) V 2-0-0 Supervisor Autumn, D1 Dr.
87852 IPISE Seminar (CHEMENV) VI 2-0-0 Supervisor Spring, D1 Dr.
87853 IPISE Seminar (CHEMENV) VII 2-0-0 Supervisor Autumn, D2 Dr.
87854 IPISE Seminar (CHEMENV) VIII 2-0-0 Supervisor Spring, D2 Dr.
87855 IPISE Seminar (CHEMENV) IX 2-0-0 Supervisor Autumn, D3 Dr.
87856 IPISE Seminar (CHEMENV) X 2-0-0 Supervisor Spring, D3 Dr.

1)  : Compulsory. None: Optional.

2)  Dr: For Doctoral course student.

(+) Year: The Year recommended to take the subject.

M1: 1st year in Master’s course
M2: 2nd year in Master’s course
D1: 1st year in Doctoral course
D2: 2nd year in Doctoral course
D3: 3rd year in Doctoral course


Courses by Departments

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
87072 Macromolecular and Supramolecular Chemistry 2-0-0 M. Yoshizawa,
K. Osakada		 Autumn
(Even Years) 		# #
87073 Topics in Advanced Inorganic Materials 2-0-0 To be announced Autumn
(Even Years)		 # #
87074 Reaction Systems Engineering 2-0-0 H. Seki Autumn
(Even Years)		 # #
87075 Advanced Organic and Inorganic Physical Chemistry 2-0-0 T. Baba,
D. Takeuchi		 Autumn
(Odd Years)		 # #
87076 Biochemistry Standing on Elements 2-0-0 T. Hisabori,
K. Wakabayashi		 Autumn
(Odd Years)		 # #
87077 Chemistry for Environment 2-0-0 E. Kobatake,
K. Motokura		 Autumn
(Odd Years)		 # #
87715 IPISE Academic Presentation (CHEMENV) I 0-1-0 Supervisor Autumn, M1
87716 IPISE Academic Presentation (CHEMENV) II 0-1-0 Supervisor Spring, M1
87717 IPISE Academic Presentation (CHEMENV) III 0-1-0 Supervisor Autumn, M2
87718 IPISE Academic Presentation (CHEMENV) IV 0-1-0 Supervisor Spring, M2
87861 IPISE Academic Presentation (CHEMENV) V 0-1-0 Supervisor Autumn, D1 Dr.
87862 IPISE Academic Presentation (CHEMENV) VI 0-1-0 Supervisor Spring, D1 Dr.
87863 IPISE Academic Presentation (CHEMENV) VII 0-1-0 Supervisor Autumn, D2 Dr.
87864 IPISE Academic Presentation (CHEMENV) VIII 0-1-0 Supervisor Spring, D2 Dr.
87865 IPISE Academic Presentation (CHEMENV) IX 0-1-0 Supervisor Autumn, D3 Dr.
87866 IPISE Academic Presentation (CHEMENV) X 0-1-0 Supervisor Spring, D3 Dr.
87555 IPISE Internship (CHEMENV) IA 0-0-1 Department Chair Spring    
87556 IPISE Internship (CHEMENV) IB 0-0-1 Department Chair Autumn    
87557 IPISE Internship (CHEMENV) IIA 0-0-2 Department Chair Spring    
87558 IPISE Internship (CHEMENV) IIB 0-0-2 Department Chair Autumn    
  Courses in other Departments and Courses in Education Academies, except for courses Lectured in Japanese.          

1)  : Compulsory. None: Optional.

2)  #: Three of these subjects must be taken.

3)  Dr: For Doctoral course student.

(+) Year: The Year recommended to take the subject.

M1: 1st year in Master’s course
M2: 2nd year in Master’s course
D1: 1st year in Doctoral course
D2: 2nd year in Doctoral course


87072 Macromolecular and Supramolecular Chemistry, 2 Credits, Autumn Semester (Even Years)

M. Yoshizawa, K. Osakada

This lecture covers the topics from organic chemistry to macromolecular chemistry to supramolecular chemistry for the purpose of understanding design, synthesis, structure, and properties of organic molecules, large organic compounds, and their assemblies. The recent topics in this field will be also discussed.

87073 Topics in Advanced Inorganic Materials, 2 Credits, Autumn Semester (Even Years)

To be announced

87074 Reaction Systems Engineering, 2 Credits, Autumn Semester (Even Years)

H. Seki

Fundamental physical chemistry, mass transfer, and heat transfer are reviewed. The application of chemical reaction engineering and process engineering are also introduced.

87075 Advanced Organic and Inorganic Physical Chemistry, 2 Credits, Autumn Semester (Odd Years)

T. Baba, D. Takeuchi

Recent topics on organic and inorganic chemistry are discussed from the viewpoint of physical chemistry. The contents involve structures and reactions of organic compounds (properties of chemical bond, reaction intermediate) and reaction kinetics.

87076 Biochemistry Standing on Elements, 2 Credits, Autumn Semester (Odd Years)

T. Hisabori, K.Wakabayashi

In the living cell, various elements are involved into the construction of various molecules. In this lecture, basis of biochemistry is lectured stand on these elements, which may give you a new scope of biochemistry. In addition, the concepts of thermodynamics in the cell and bioenergetics are lectured as well.

87077 Chemistry for Environment, 2 Credits, Autumn Semester (Odd Years)

E.Kobatake, K. Motokura,

Fundamental and applied chemistry for environmental protection and prevention are lectured. Current topics, such as recycle of carbon dioxide, are discussed.

87705-87708, 87851-87856 IPISE Seminar (CHEMENV) I|X, 2 Credits (for each)

I, III, V, VII, IX : Autumn Semester; II, IV, VI, VIII, X : Spring Semester
Supervisor

This seminar is given at laboratory of studentfs academic advisor, and conducted through reading and introducing original papers, reading of selected books, practicing presentation/discussion on scientific symposium.

87715-87718, 87861-87866 IPISE Academic Presentation (CHEMENV) I-X, 1 Credit (for each)

I, III, V, VII, IX : Autumn Semester; II, IV, VI, VIII, X : Spring Semester
Supervisor

An opportunity for student to give her/his presentation on their progress of research activities in front of her/his supervisor. This includes presentation in domestic and/or international meetings, congresses, symposiums, and/or seminars on her/his research field.

Liberal Arts and General Education(G)

No. Subject Credit Chair Semester Remarks
(See footnotes)
IGP (A) IGP (C)
96053 Modern Japan 1-0-0 To be announced Spring  
89134 Seminar for cultivating international understandings 0-3-0 K.Kajikawa Autumn  
93059 Historical Review of Intellectual Property 1-0-0 Y.Hayashi Autumn    
36005 Strategic Management of Technology 2-0-0 K. Miyazaki Spring    
87551 IPISE International Communication (CHEMENV) I 0-1-0 Supervisor Autumn ## ##
87552 IPISE International Communication (CHEMENV) II 0-1-0 Supervisor Spring ## ##
87553 IPISE International Communication (CHEMENV) III 0-1-0 Supervisor Autumn ## ##
87554 IPISE International Communication (CHEMENV) IV 0-1-0 Supervisor Spring ## ##
99405 Technical Writing 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99406 Technical Writing 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99412 Technical Writing 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99413 Technical Writing 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99403 Technical Discussion 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99404 Technical Discussion 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99410 Technical Discussion 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99411 Technical Discussion 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99416 Critical Thinking 2-0-0 D. Ricinschi
H. Gonzales		 Autumn    
99415 Scientific Communication 2-0-0 D. Berrar
D. Ricinschi		 Spring    
99417 Global Trends in Science and Technology 2-0-0 H. Gonzales
D. Berrar		 Autumn    
99408 Ethics for Scientists and Engineers 2-0-0 M. Yamamura
Y. Iwamoto		 Autumn    

1)  : Compulsory. None: Optional.

2)  ##: Two of the four subjects, i.e. IPISE International Communication I through IV, must be taken.

3)  ‘Technical Writing’, ‘Technical Discussion’ can be registered only by the students who belong to IPISE, IGP(A) and Innovative Platform for Education and Research course (IPER).


===== <Advanced Course of Information Technology and System Sciences> =====

4-8 Department of Electronics and Applied Physics (E&AP)


Research Courses

No. Subject Credit Chair Semester,
Year(+)
(See footnotes)		 Remarks
(See footnotes)
IGP (A) IGP (C)
89705 IPISE Seminar (E&AP) I 2-0-0 Supervisor Autumn, M1
89706 IPISE Seminar (E&AP) II 2-0-0 Supervisor Spring, M1
89707 IPISE Seminar (E&AP) III 2-0-0 Supervisor Autumn, M2
89708 IPISE Seminar (E&AP) IV 2-0-0 Supervisor Spring, M2
89851 IPISE Seminar (E&AP) V 2-0-0 Supervisor Autumn, D1 Dr.
89852 IPISE Seminar (E&AP) VI 2-0-0 Supervisor Spring, D1 Dr.
89853 IPISE Seminar (E&AP) VII 2-0-0 Supervisor Autumn, D2 Dr.
89854 IPISE Seminar (E&AP) VIII 2-0-0 Supervisor Spring, D2 Dr.
89855 IPISE Seminar (E&AP) IX 2-0-0 Supervisor Autumn, D3 Dr.
89856 IPISE Seminar (E&AP) X 2-0-0 Supervisor Spring, D3 Dr.
89725 Experiment (E&AP) I 0-0-1 Supervisor Autumn, M1
89726 Experiment (E&AP) II 0-0-1 Supervisor Spring, M1
89727 Experiment (E&AP) III 0-0-1 Supervisor Autumn, M2
89728 Experiment (E&AP) IV 0-0-1 Supervisor Spring, M2

1)  : Compulsory. None: Optional.

2)  Dr: For Doctor’s course student.

(+)Year :The year recommended to take the subject.

M1: 1st year in Master’s course
M2: 2nd year in Master’s course
D1: 1st year in Doctoral course
D2: 2nd year in Doctoral course
D3: 3rd year in Doctoral course


Courses by Departments

No. Subject Credit Chair Semester,
Year(+)
(See footnotes)		 Remarks
(See footnotes)
IGP (A) IGP (C)
89115 Linear and Nonlinear Optics in Advanced Materials 2-0-0 Kotaro KAJIKAWA Spring
(Odd Year)		    
89133 Fundamentals of light and matter IIb 1-0-0 Hiro Munekata Spring    
93059 Historical Review of Intellectual Property 1-0-0 Y. HAYASHI Autumn    
89134 Seminar for cultivating international understandings 0-3-0 Kotaro KAJIKAWA Autumn
36005 Strategic Management of Technology 2-0-0 K. Miyazaki Spring    
89715 IPISE Academic Presentation (E&AP) I 0-1-0 Supervisor Autumn, M1
89716 IPISE Academic Presentation (E&AP) II 0-1-0 Supervisor Spring, M1
89717 IPISE Academic Presentation (E&AP) III 0-1-0 Supervisor Autumn, M2
89718 IPISE Academic Presentation (E&AP) IV 0-1-0 Supervisor Spring, M2
89861 IPISE Academic Presentation (E&AP) V 0-1-0 Supervisor Autumn, D1 Dr.
89862 IPISE Academic Presentation (E&AP) VI 0-1-0 Supervisor Spring, D1 Dr.
89863 IPISE Academic Presentation (E&AP) VII 0-1-0 Supervisor Autumn, D2 Dr.
89864 IPISE Academic Presentation (E&AP) VIII 0-1-0 Supervisor Spring, D2 Dr.
89865 IPISE Academic Presentation (E&AP) IX 0-1-0 Supervisor Autumn, D3 Dr.
89866 IPISE Academic Presentation (E&AP) X 0-1-0 Supervisor Spring, D3 Dr.
89555 IPISE Internship (E&AP) IA 0-0-1 Department Chair Spring    
89556 IPISE Internship (E&AP) IB 0-0-1 Department Chair Autumn    
89557 IPISE Internship (E&AP) IIA 0-0-2 Department Chair Spring    
89558 IPISE Internship (E&AP) IIB 0-0-2 Department Chair Autumn    
  Courses in other Departments and Courses in Education Academies, except for courses lectured in Japanese.          

1)  : Compulsory. None: Optional.

2)  Dr: For Doctor’s course student.

(+)Year : The year recommended to take the subject.

M1: 1st year in Master’s course
M2: 2nd year in Master’s course
D1: 1st year in Doctoral course
D2: 2nd year in Doctoral course
D3: 3rd year in Doctoral course


89115 Linear and Nonlinear Optics in Advanced Materials, 2 credits, Spring Semester, Odd Years: English/ Even Years: Japanese

K. Kajikawa

  1. The understanding of optical constants of dielectrics, metals and semiconductors, on the basis of the Maxwell equations.
  2. Propagation of light in crystals, liquid crystals and nonlinear optical materials for the understanding of functional optical materials, including computer simulations.
  3. Introduction to nanophotonics and surface plasmon optics.

89133 Fundamentals of light and matter IIb, 1 credits, Spring Semester

H. Munekata

In order to carry out fundamental research on novel electronic, optical, and magnetic materials and devices, you have to understand the behavior of electrons in solids. This class aims at learning wave-like aspect of electrons in crystals, excitation of solids with low- (electrical) to high- (optical) frequency electromagnetic waves, and resultant optical properties of solids. Energy bands in the most advanced materials, in particular low dimension systems, will also be reviewed.


Liberal Arts and General Education(G)

No. Subject Credit Chair Semester,
Year(+)
(See footnotes)		 Remarks
(See footnotes)
IGP (A) IGP (C)
96053 Modern Japan 1-0-0 To be announced Spring
89551 IPISE International Communication (E&AP) I 0-1-0 Supervisor Autumn # #
89552 IPISE International Communication (E&AP) II 0-1-0 Supervisor Spring # #
89553 IPISE International Communication (E&AP) III 0-1-0 Supervisor Autumn # #
89554 IPISE International Communication (E&AP) IV 0-1-0 Supervisor Spring # #
99405 Technical Writing 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99406 Technical Writing 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99412 Technical Writing 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99413 Technical Writing 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99403 Technical Discussion 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99404 Technical Discussion 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99410 Technical Discussion 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99411 Technical Discussion 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99416 Critical Thinking 2-0-0 D. Ricinschi
H. Gonzales		 Autumn    
99415 Scientific Communication 2-0-0 D. Berrar
D. Ricinschi		 Spring    
99417 Global Trends in Science and Technology 2-0-0 H. Gonzales
D. Berrar		 Autumn    
99408 Ethics for Scientists and Engineers 2-0-0 M. Yamamura
Y. Iwamoto		 Autumn    

1)  : Compulsory. None: Optional.

2)  #: Two of the four subjects, i.e. IPISE International Communication I through IV, must be taken.

3)  ‘Technical Writing’, ‘Technical Discussion’ can be registered only by the students who belong to IPISE, IGP(A) and Innovative Platform for Education and Research course (IPER).


4-9 Department of Mechano-Micro Engineering (MECMIC)


Research Courses

No. Subject Credit Chair Semester,
Year(+)
(See footnotes)		 Remarks
(See footnotes)
IGP (A) IGP (C)
83705 IPISE Seminar (MECMIC)I 2-0-0 Supervisor Autumn, M1  
83706 IPISE Seminar (MECMIC)II 2-0-0 Supervisor Spring, M1  
83707 IPISE Seminar (MECMIC)III 2-0-0 Supervisor Autumn, M2  
83708 IPISE Seminar (MECMIC)IV 2-0-0 Supervisor Spring, M2  
83851 IPISE Seminar (MECMIC)V 2-0-0 Supervisor Autumn, D1 Dr. Dr.
83852 IPISE Seminar (MECMIC)VI 2-0-0 Supervisor Spring, D1 Dr. Dr.
83853 IPISE Seminar (MECMIC)VII 2-0-0 Supervisor Autumn, D2 Dr. Dr.
83854 IPISE Seminar (MECMIC)VIII 2-0-0 Supervisor Spring, D2 Dr. Dr.
83855 IPISE Seminar (MECMIC)IX 2-0-0 Supervisor Autumn, D3 Dr. Dr.
83856 IPISE Seminar (MECMIC)X 2-0-0 Supervisor Spring, D3 Dr. Dr.
83715 IPISE Academic Presentation (MECMIC)I 0-1-0 Supervisor Autumn, M1 *  
83716 IPISE Academic Presentation (MECMIC)II 0-1-0 Supervisor Spring, M1 *  
83717 IPISE Academic Presentation (MECMIC)III 0-1-0 Supervisor Autumn, M2 *  
83718 IPISE Academic Presentation (MECMIC)IV 0-1-0 Supervisor Spring, M2 *  
83861 IPISE Academic Presentation (MECMIC)V 0-1-0 Supervisor Autumn, D1 * **
83862 IPISE Academic Presentation (MECMIC)VI 0-1-0 Supervisor Spring, D1 * **
83863 IPISE Academic Presentation (MECMIC)VII 0-1-0 Supervisor Autumn, D2 * **
83864 IPISE Academic Presentation (MECMIC)VIII 0-1-0 Supervisor Spring, D2 * **
83865 IPISE Academic Presentation (MECMIC)IX 0-1-0 Supervisor Autumn, D3 * **
83866 IPISE Academic Presentation (MECMIC)X 0-1-0 Supervisor Spring, D3 * **

1)  : Compulsory. None: Optional.

2)  Dr: For Doctor’s course student.

3)  *: One subject among IPISE Academic Presentation I through IV, and another subject among Academic Presentation V through X must be taken.

4)  **: One subject among IPISE Academic Presentation V through X, must be taken.

(+)Year :The year recommended to take the subject.

M1: 1st year in Master’s course
M2: 2nd year in Master’s course
D1: 1st year in Doctoral course
D2: 2nd year in Doctoral course
D3: 3rd year in Doctoral course

Courses by Departments

No. Subject Credit Chair Semester,
Year(+)
(See footnotes)		 Remarks
(See footnotes)
IGP (A) IGP (C)
83067 Theory of Robotics A 1-0-0 Toru OMATA
Toshio TAKAYAMA		 Autumn
83068 Theory of Robotics B 1-0-0 Toru OMATA Autumn
83036 Advanced Mechanical Systems Design 1-0-0 Mikio HORIE Autumn
(Odd year)
83069 Advanced Solid Mechanics 1-0-0 Chiaki SATO Autumn
(Even year)
83070 Process Measurement and Control A 1-0-0 Toshiharu KAGAWA,
Kenji KAWASHIMA
Kotaro TADANO		 Autumn
(Even year)
83071 Process Measurement and Control B 1-0-0 Toshiharu KAGAWA,
Kenji KAWASHIMA
Kotaro TADANO		 Autumn
(Even year)
83072 Advanced Course of Ultimate Mechanical System A 1-0-0 Tadahiko SHINSHI Autumn
(Even year)
83073 Advanced Course of Ultimate Mechanical System B 1-0-0 Tadahiko SHINSHI Autumn
(Even year)
89134 Seminar for cultivating international understandings 0-3-0 K. Kajikawa Autumn
93059 Historical Review of Intellectual Property 1-0-0 Y. Hayashi Autumn
36005 Strategic Management of Technology 2-0-0 K. Miyazaki Spring
83555 IPISE Internship (MECMIC) IA 0-0-1 Department Chair Spring
83556 IPISE Internship (MECMIC) IB 0-0-1 Department Chair Autumn
83557 IPISE Internship (MECMIC) IIA 0-0-2 Department Chair Spring
83558 IPISE Internship (MECMIC) IIB 0-0-2 Department Chaira Autumn
  Courses in other Departments and Courses in Education Academies, except for courses lectured in Japanese          

...will be offered first half of the semester.

...will be offered second half of semester.


83067 Theory of Robotics A, 1 credits, Autumn Semester

T. Omata, T. Takayama

This course provides basic knowledge on robot analysis and design mainly for planar manipulators. The topics include kinematics and statics of planar serial and parallel manipulators, and mechanisms of robots.

83068 Theory of Robotics B, 1 credits, Autumn Semester

T. Omata

This course provides basic knowledge on robot analysis and design mainly for spatial manipulators. The topics include kinematics and statics of spatial serial and parallel manipulators, and dynamics of manipulators. This course also discusses advanced topics on robotics such as medical robotics, welfare robotics, etc.

83036 Advanced Mechanical Systems Design, 1 credits, Autumn Semester(Odd years only)

M. Horie

The mechanical systems composed of machine elements, for example, actuators, sensors, mechanisms, etc., are introduced and their design methods are discussed in the fields of kinematics of machinery.

83069 Advanced Solid Mechanics, 1 credits, Autumn Semester(Even years only)

C. Sato

Advanced topics on solid mechanics are explained and discussed in this course to provide extensive knowledge on non-linear elasticity, plasticity and viscoelasticity described with tensor analysis.

83070 Process Measurement and Control A, 1 credits, Autumn Semester(Even years only)

T. Kagawa, K. Kawashima, K. Tadano

Sensors, control methods and instruments used in process control are introduced.

83071 Process Measurement and Control B, 1 credits, Autumn Semester(Even years only)

T. Kagawa, K. Kawashima, K. Tadano

Applications of process control are introduced and their dynamics are discussed.

83072 Advanced Course of Ultimate Mechanical System A, 1 credits, Autumn Semester(Even years only)

T. Shinshi

Basic knowledge on mechanical and electrical devices is introduced in order to design and fabricate ultra-precision, micro, high-speed, simple or integrated mechanisms.

83073 Advanced Course of Ultimate Mechanical System B, 1 credits, Autumn Semester(Even years only)

T. Shinshi

Basic knowledge on precision and micro mechatronic systems is introduced in order to design and fabricate ultra-precision, micro, high-speed, simple or integrated mechanical systems.


Liberal Arts and General Education(G)

No. Subject Credit Chair Semester,
Year(+)
(See footnotes)		 Remarks
(See footnotes)
IGP (A) IGP (C)
96053 Modern Japan 1-0-0 To be announced Spring
83551 IPISE International Communication (MECMIC) I 0-1-0 Supervisor Autumn #
83552 IPISE International Communication (MECMIC) II 0-1-0 Supervisor Spring #
83553 IPISE International Communication (MECMIC) III 0-1-0 Supervisor Autumn #
83554 IPISE International Communication (MECMIC) IV 0-1-0 Supervisor Spring #
99405 Technical Writing 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99406 Technical Writing 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99412 Technical Writing 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99413 Technical Writing 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99403 Technical Discussion 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99404 Technical Discussion 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99410 Technical Discussion 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99411 Technical Discussion 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99416 Critical Thinking 2-0-0 D. Ricinschi
H. Gonzales		 Autumn    
99415 Scientific Communication 2-0-0 D. Berrar
D. Ricinschi		 Spring    
99417 Global Trends in Science and Technology 2-0-0 H. Gonzales
D. Berrar		 Autumn    
99408 Ethics for Scientists and Engineers 2-0-0 M. Yamamura
Y. Iwamoto		 Autumn    

1)  : Compulsory. None: Optional.

2)  #: Two of the four subjects, IPISE International Communication I through IV, must be taken.

3)  ‘Technical Writing&rquo;, ‘Technical Discussion’ can be registered only by the students who belong to IPISE, IGP(A) and Innovative Platform for Education and Research course (IPER).


4-10 Department of Computational Intelligence and Systems Science (CISS)

In the master’s program, 30 or more credits must be acquired. In these credits, 18 or more credits must be taken in Research Courses and Courses by Departments. Also 2 or more credits must be taken in Liberal Arts and General Education(G).
In the doctorial program, Compulsory Subjects (Dr.) of all semesters when the candidate is enrolled must be taken.


Research Courses

No. Subject Credit Chair Semester,
Year(+)
(See footnotes)		 Remarks
(See footnotes)
IGP (A) IGP (C)
94705 IPISE Seminar (CISS) I 2-0-0 Supervisor Autumn, M1
94706 IPISE Seminar (CISS) II 2-0-0 Supervisor Spring, M1
94707 IPISE Seminar (CISS) III 2-0-0 Supervisor Autumn, M2
94708 IPISE Seminar (CISS) IV 2-0-0 Supervisor Spring, M2
94851 IPISE Seminar (CISS) V 2-0-0 Supervisor Autumn, D1 Dr.
94852 IPISE Seminar (CISS) VI 2-0-0 Supervisor Spring, D1 Dr.
94853 IPISE Seminar (CISS) VII 2-0-0 Supervisor Autumn, D2 Dr.
94854 IPISE Seminar (CISS) VIII 2-0-0 Supervisor Spring, D2 Dr.
94855 IPISE Seminar (CISS) IX 2-0-0 Supervisor Autumn, D3 Dr.
94856 IPISE Seminar (CISS) X 2-0-0 Supervisor Spring, D3 Dr.

1)  : Compulsory Subjects.

2)  Dr: For Doctor’s course student.

(+)Year :The year recommended to take the subject.

M1: 1st year in Master’s course
M2: 2nd year in Master’s course
D1: 1st year in Doctoral course
D2: 2nd year in Doctoral course
D3: 3rd year in Doctoral course


Courses by Departments

No. Subject Credit Chair Semester,
Year(+)
(See footnotes)		 Remarks
(See footnotes)
IGP (A) IGP (C)
89134 Seminar for cultivating international understandings 0-3-0 K. Kajikawa Autumn
93059 Historical Review of Intellectual Property 1-0-0 Y. Hayashi Autumn
36005 Strategic Management of Technology 2-0-0 K. Miyazaki Spring
94072 Advanced Topics in Systems Life-Sciences I 2-0-0 M. Yamamura et al. Autumn
94073 Advanced Topics in Socio-economic Sciences I 2-0-0 H. Deguchi et al. Autumn
94074 Advanced Topics in Intelligence Sciences I 2-0-0 K. Nitta et al. Autumn
94075 Advanced Topics in Mathematical Information Sciences I 2-0-0 Y. Kabashima et al. Autumn
94101 Advanced Topics in Systems Life-Sciences II 2-0-0 K. Nakamura et al. Spring
94102 Advanced Topics in Socio-economic Sciences II 2-0-0 T. Terano et al. Spring
94103 Advanced Topics in Intelligence Sciences II 2-0-0 Y. Miyake et al. Spring
94104 Advanced Topics in Mathematical Information Sciences II 2-0-0 S. Watanabe et al. Spring
94090 Topics in Translational Biomedical Informatics 1-1-0 A. Konagaya Autumn
94082 Special Lecture on Computational Intelligence and Systems Science I 1-0-0 To be announced Spring
94715 IPISE Academic Presentation (CISS) I 0-1-0 Supervisor Autumn, M1
94716 IPISE Academic Presentation (CISS) II 0-1-0 Supervisor Spring, M1
94717 IPISE Academic Presentation (CISS) III 0-1-0 Supervisor Autumn, M2
94718 IPISE Academic Presentation (CISS) IV 0-1-0 Supervisor Spring, M2
94861 IPISE Academic Presentation (CISS) V 0-1-0 Supervisor Autumn, D1 Dr.
94862 IPISE Academic Presentation (CISS) VI 0-1-0 Supervisor Spring, D1 Dr.
94863 IPISE Academic Presentation (CISS) VII 0-1-0 Supervisor Autumn, D2 Dr.
94864 IPISE Academic Presentation (CISS) VIII 0-1-0 Supervisor Spring, D2 Dr.
94865 IPISE Academic Presentation (CISS) IX 0-1-0 Supervisor Autumn, D3 Dr.
94866 IPISE Academic Presentation (CISS) X 0-1-0 Supervisor Spring, D3 Dr.
94555 IPISE Internship (CISS) IA 0-0-1 Department Chair Spring
94556 IPISE Internship (CISS) IB 0-0-1 Department Chair Autumn
94557 IPISE Internship (CISS) IIA 0-0-1 Department Chair Spring
94558 IPISE Internship (CISS) IIB 0-0-1 Department Chair Autumn

1)  : Compulsory Subjects.

2)  Dr: For Doctor’s course student.

(+)Year :The year recommended to take the subject.

M1: 1st year in Master’s course
M2: 2nd year in Master’s course
D1: 1st year in Doctoral course
D2: 2nd year in Doctoral course
D3: 3rd year in Doctoral course


94072

Advanced Topics in Systems Life-Sciences I, 2 Credits, Autumn Semester
Prof. Masayuki Yamamura, Prof. Akihiko Konagaya, Prof. Kiyohiko Nakamura, Assoc. Prof. Daisuke Kiga, Assoc. Prof. Eizo Miyashita, Coordinate Prof. Takanori Kigawa, Coordinate Prof. Atsushi Mochizuki, Coordinate Prof. Takanori Shibata, Coordinate Assoc. Prof. Teruki Honma, Coordinate Assoc. Prof. Taro Toyoizumi, Assist. Prof. Ken Komiya, Assist. Prof. Takuma Tanaka, Assoc. Prof. Daniel Berrar

The objective of this course is to introduce the state of art on Systems Life-Sciences. Topics are chosen from Bioinformatics, Genomic Researches, System Biology, Synthetic Biology, mathematical Biology, Biophysics, DNA Nano Engineering, and Brain Sciences.

94073

Advanced Topics in Socio-economic Sciences I, 2 Credits, Autumn Semester
Prof. Hiroshi Deguchi, Prof. Takao Terano, Prof. Kaoru Hirota, Assoc. Prof. Isao Ono, Assoc. Prof. Misako Takayasu, Coordinate Prof. Yasuhiro Kanatani, Coordinate Prof. Itsuki Noda, Coordinate Prof. Gaku Yamamoto, Coordinate Prof. Kazuo Yano, Coordinate Assoc. Prof. Tomoya Saito, Assist. Prof. Takashi Yamada, Assist. Prof. Manabu Ichikawa

This course, “Advanced Topics in Socio-economic Sciences I” is a graduate level course for students interested in interdisciplinary research for socio-economic systems as the sciences of the artificial. The course will provide students with an advanced survey of emerging topics in the multidisciplinary field of socio-economic sciences and its application as a design science.

94074

Advanced Topics in Intelligence Sciences I, 2 Credits, Autumn Semester
Prof. Katsumi Nitta, Prof. Hiroshi Nagahashi, Prof. Yoshihiro Miyake, Prof. Makoto Sato, Prof. Takamichi Nakamoto, Coordinate Prof. Seiji Yamada, Assoc. Prof. Hiroya Takamura, Assoc. Prof. Shoichi Hasegawa, Coordinate Assoc. Prof. Nobuhiro Furuyama, Assist. Prof. Shogo Okada, Assist. Prof. Kenichiro Ogawa, Assist. Prof. Katsuhito Akahane, Assist. Prof. Fang yan Dong.

The purpose of this course is to present how intelligence sciences are applied to practical systems. By different lectures, wide range of topics of intelligence sciences, such as artificial intelligence, man-machine interactive systems, intelligent image processing systems, intelligent robotics and so on, are presented.

94075

Advanced Topics in Mathematical Information Sciences I, 2 Credits, Autumn Semester
Prof. Yoshiyuki Kabashima, Prof. Sumio Watanabe, Coordinate Prof. Kenji Fukumizu, Coordinate Prof. Shotaro Akaho, Assoc. Prof. Hideaki Ishii, Assoc. Prof. Toshiaki Murofushi, Assoc. Prof. Osamu Hasegawa, Assoc. Prof. Toru Aonishi, Assoc. Prof. Yuichi Nagata, Assoc. Prof. Masahiro Takinoue, Coordinate Assoc. Prof. Shiro Ikeda, Coordinate Assoc. Prof. Yoichi Motomura, Assist. Prof. Keisuke Yamazaki.

The objective of this course is to introduce mathematical notions and methodologies which are developing in the current frontiers of research on computational intelligence and systems science in conjunction with their application examples. Topics are chosen from learning theory, fuzzy theory, control theory, information theory, mathematical and computational statistics, theory of evolutionary computing and etc.

94101

Advanced Topics in Systems Life-Sciences II, 2 Credits, Spring Semester
Prof. Kiyohiko Nakamura, Prof. Masayuki Yamamura, Prof. Akihiko Konagaya, Assoc. Prof. Daisuke Kiga, Assoc. Prof. Eizo Miyashita, Coordinate Prof. Takanori Kigawa, Coordinate Prof. Atsushi Mochizuki, Coordinate Prof. Takanori Shibata, Coordinate Assoc. Prof. Teruki Honma, Coordinate Assoc. Prof. Taro Toyoizumi, Assist. Prof. Ken Komiya, Assist. Prof. Takuma Tanaka, Assoc. Prof. Daniel Berrar

The objective of this course is to introduce the state of art on Systems Life-Sciences. Topics are chosen from Bioinformatics, Genomic Researches, System Biology, Synthetic Biology, mathematical Biology, Biophysics, DNA Nano Engineering, and Brain Sciences. The contents of this lecture II are different from those of I.

94102

Advanced Topics in Socio-economic Sciences II, 2 Credits, Spring Semester
Prof. Takao Terano, Prof. Hiroshi Deguchi, Prof. Kaoru Hirota, Assoc. Prof. Isao Ono, Assoc. Prof. Misako Takayasu, Coordinate Prof. Yasuhiro Kanatani, Coordinate Prof. Itsuki Noda, Coordinate Prof. Gaku Yamamoto, Coordinate Prof. Kazuo Yano, Coordinate Assoc. Prof. Tomoya Saito, Assist. Prof. Takashi Yamada, Assist. Prof. Manabu Ichikawa

This course, “Advanced Topics in Socio-economic Sciences II” is a graduate level course for students interested in interdisciplinary research for socio-economic systems as the sciences of the artificial. The course will provide students with an advanced survey of emerging topics in the multidisciplinary field of socio-economic sciences and its application as a design science. The contents of this lecture II are different from those of I.

94103

Advanced Topics in Intelligence Sciences II, 2 Credits, Spring Semester
Prof. Yoshihiro Miyake, Prof. Hiroshi Nagahashi, Prof. Katsumi Nitta, Prof. Makoto Sato, Prof. Takamichi Nakamoto, Coordinate Prof. Seiji Yamada, Assoc. Prof. Hiroya Takamura, Assoc. Prof. Shoichi Hasegawa, Coordinate Assoc. Prof. Nobuhiro Furuyama, Assist. Prof. Shogo Okada, Assist. Prof. Kenichiro Ogawa, Assist. Prof. Katsuhito Akahane, Assist. Prof. Fang yan Dong.

The purpose of this course is to present how intelligence sciences are applied to practical systems. By different lectures, wide range of topics of intelligence sciences, such as artificial intelligence, man-machine interactive systems, intelligent image processing systems, intelligent robotics and so on, are presented. The contents of this lecture II are different from those of I.

94104

Advanced Topics in Mathematical Information Sciences II, 2 Credits, Spring Semester
Prof. Sumio Watanabe, Prof. Yoshiyuki Kabashima, Coordinate Prof. Kenji Fukumizu, Coordinate Prof. Shotaro Akaho, Assoc. Prof. Hideaki Ishii, Assoc. Prof. Toshiaki Murofushi, Assoc. Prof. Osamu Hasegawa, Assoc. Prof. Toru Aonishi, Assoc. Prof. Yuichi Nagata, Assoc. Prof. Masahiro Takinoue, Coordinate Assoc. Prof. Shiro Ikeda, Coordinate Assoc. Prof. Yoichi Motomura, Assist. Prof. Keisuke Yamazaki.

The objective of this course is to introduce mathematical notions and methodologies which are developing in the current frontiers of research on computational intelligence and systems science in conjunction with their application examples. Topics are chosen from learning theory, fuzzy theory, control theory, information theory, mathematical and computational statistics, theory of evolutionary computing and etc. The contents of this lecture II are different from those of I.

94090 Topics in Translational Biomedical Informatics , 2 Credit, Autumn Semester
A. Konagaya et al.

This intensive course is a one unit lesson designed primarily for graduate students to study advanced topics in the field of biomedical informatics using video lectures provided by the Palaver Seminar of Harvard Medical School. The class is a mixture of a video lecture and discussion with faculties. Grading criteria: Report 50%, Participation 50%
Test: None

94082 Special Lecture on Computational Intelligence and Systems Science I, 1 credit, Spring Semester
To be announced.


Liberal Arts and General Education(G)

No. Subject Credit Chair Semester,
Year(+)
(See footnotes)		 Remarks
(See footnotes)
IGP (A) IGP (C)
96053 Modern Japan 1-0-0 To be announced Spring
94551 IPISE International Communication (CISS) I 0-1-0 Supervisor Autumn # #
94552 IPISE International Communication (CISS) II 0-1-0 Supervisor Spring # #
94553 IPISE International Communication (CISS) III 0-1-0 Supervisor Autumn # #
94554 IPISE International Communication (CISS) IV 0-1-0 Supervisor Spring # #
99405 Technical Writing 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99406 Technical Writing 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99412 Technical Writing 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99413 Technical Writing 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99403 Technical Discussion 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99404 Technical Discussion 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99410 Technical Discussion 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99411 Technical Discussion 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99416 Critical Thinking 2-0-0 D. Ricinschi
H. Gonzales		 Autumn    
99415 Scientific Communication 2-0-0 D. Berrar
D. Ricinschi		 Spring    
99417 Global Trends in Science and Technology 2-0-0 H. Gonzales
D. Berrar		 Autumn    
99408 Ethics for Scientists and Engineers 2-0-0 M. Yamamura
Y. Iwamoto		 Autumn    

1)  : Compulsory Subjects.

2)  #: Two of the four subjects, i.e. IPISE International Communication I through IV, must be taken.

3)  ‘Technical Writing&rquo;, ‘Technical Discussion’ can be registered only by the students who belong to IPISE, IGP(A) and Innovative Platform for Education and Research course (IPER).


4-11 Department of Information Processing (IP)

Requirements for Master’s Course Study (Tentative):

Research Courses

16 Credits or more

    Seminar

    8 Credits

    Research work Subject

    8 Credits

Courses by Departments

12 Credits or more

    Lectures provided by Information Processing Dept.

    Lectures provided by other departments

Liberal Arts and General Education(G)

2 Credits or more

Research Courses

No. Subject Credit Chair Semester,
Year(+)
(See footnotes)		 Remarks
(See footnotes)
IGP (A) IGP (C)
88705 IPISE Seminar (IP) I 2-0-0 Supervisor Autumn, M1
88706 IPISE Seminar (IP) II 2-0-0 Supervisor Spring, M1
88707 IPISE Seminar (IP) III 2-0-0 Supervisor Autumn, M2
88708 IPISE Seminar (IP) IV 2-0-0 Supervisor Spring, M2
88851 IPISE Seminar (IP) V 2-0-0 Supervisor Autumn, D1 Dr.
88852 IPISE Seminar (IP) VI 2-0-0 Supervisor Spring, D1 Dr.
88853 IPISE Seminar (IP) VII 2-0-0 Supervisor Autumn, D2 Dr.
88854 IPISE Seminar (IP) VIII 2-0-0 Supervisor Spring, D2 Dr.
88855 IPISE Seminar (IP) IX 2-0-0 Supervisor Autumn, D3 Dr.
88856 IPISE Seminar (IP) X 2-0-0 Supervisor Spring, D3 Dr.
88725 IP Special Experiment (IP) I 0-0-2 Supervisor Autumn, M1
88726 IP Special Experiment (IP) II 0-0-2 Supervisor Spring, M1
88715 IPISE Academic Presentation (IP) I 0-1-0 Supervisor Autumn, M1
88716 IPISE Academic Presentation (IP) II 0-1-0 Supervisor Spring, M1
88717 IPISE Academic Presentation (IP) III 0-1-0 Supervisor Autumn, M2
88718 IPISE Academic Presentation (IP) IV 0-1-0 Supervisor Spring, M2
88861 IPISE Academic Presentation (IP) V 0-1-0 Supervisor Autumn, D1 Dr.
88862 IPISE Academic Presentation (IP) VI 0-1-0 Supervisor Spring, D1 Dr.
88863 IPISE Academic Presentation (IP) VII 0-1-0 Supervisor Autumn, D2 Dr.
88864 IPISE Academic Presentation (IP) VIII 0-1-0 Supervisor Spring, D2 Dr.
88865 IPISE Academic Presentation (IP) IX 0-1-0 Supervisor Autumn, D3 Dr.
88866 IPISE Academic Presentation (IP) X 0-1-0 Supervisor Spring, D3 Dr.

1)  : Compulsory. None: Optional.

2)  Dr: For Doctor’s course student.

(+)Year :The year recommended to take the subject.

M1: 1st year in Master’s course
M2: 2nd year in Master’s course
D1: 1st year in Doctoral course
D2: 2nd year in Doctoral course
D3: 3rd year in Doctoral course


Courses by Departments

No. Subject Credit Chair Semester,
Year(+)
(See footnotes)		 Remarks
(See footnotes)
IGP (A) IGP (C)
88003 Basic Sensation Informatics 2-0-0 K. Uchikawa,
H. Kaneko,
M. Kashino,
M. Kawasaki
J. Watanabe		 Spring
(Odd Year)		    
88009 Visual Information Processing 2-0-0 H. Kaneko,
K. Uchikawa,
I. Sato,
J. Watanabe		 Autumn
(Even Year)		    
88021 Fundamentals of Digital Signal Processing 2-0-0 T. Kobayashi,
M. Yamaguchi,
N. Sugino		 Spring
(Odd Year)		    
88028 Speech and Language Processing 2-0-0 T. Kobayashi,
M. Okumura		 Autumn
(Even Year)		    
88023 Optical Imaging and Image Processing 2-0-0 M. Yamaguchi Autumn
(Even Year)		    
88024 Statistical Models of Brain and Parallel Computation 2-0-0 I. Kumazawa Autumn
(Odd Year)		    
88102 Medical Image Informatics 2-0-0 T. Obi Autumn
(Odd Year)		    
88107 Fundamentals on VLSI Systems 2-0-0 N. Sugino Spring
(Even Year)		    
88108 Advanced VLSI Systems 2-0-0 N. Sugino Autumn
(Odd Year)		    
88109 Intelligent Information Systems 2-0-0 T. Ito
K. Sumita
K. Aida		 Autumn
(Even Year)		    
88110 Ultrasonic Electronics 2-0-0 K. Nakamura Spring
(Even Year)		    
88111 Micro-Acoustic Systems 2-0-0 M. Kurosawa,
K. Nakamura		 Autumn
(Odd Year)		    
88031 Language Engineering 2-0-0 M. Okumura Spring
(Odd Year)		    
88032 Computational Brain 2-0-0 Y. Koike Autumn
(Odd Year)		    
88555 IPISE Internship (IP) IA 0-0-1 Department Chair Spring    
88556 IPISE Internship (IP) IB 0-0-1 Department Chair Autumn    
88557 IPISE Internship (IP) IIA 0-0-2 Department Chair Spring    
88558 IPISE Internship (IP) IIB 0-0-2 Department Chair Autumn    
89134 Seminar for cultivating international understandings 0-3-0 K. Kajikawa Autumn  
93059 Historical Review of Intellectual Property 1-0-0 Y. Hayashi Autumn    
36005 Strategic Management of Technology 2-0-0 K. Miyazaki Spring    
  Courses in other Departments and Courses in Education Academies, except for courses lectured in Japanese.          

1)  :Compulsory. None: Optional.


88003 Basic Sensation Informatics, 2 credits, Spring Semester, Odd years

K. Uchikawa, H. Kaneko, M. Kashino, M.KawasakiCJ. Watanabe

It is described how human perceptual system obtains, transfers, analyzes and integrates information from the outside world so that a final perceptual image can be created in human brain. Fundamental aspects of visual and other sensory systems, including the structures, methods for measuring the perceptual responses and psychophysical and physiological functions, are explained showing many experimental data.

88009 Visual Information Processing, 2 credits, Autumn Semester, Even years

H. Kaneko, K. Uchikawa, I. Sato, J. Watanabe

The aspects and mechanisms of visual information processing for space perception, color perception, motion perception etc. are described showing recent studies. The development of visual system, the interaction between visual and other sensory systems, the methods for measuring, analyzing and modeling the functions of visual system are also described.

88021 Fundamentals of Digital Signal Processing, 2 credits, Spring Semester, Odd years

T. Kobayashi, M. Yamaguchi, N. Sugino

This course provides basic knowledge on digital signal processing. Digital signal processing plays an important role in analysis of various information systems. It is assumed that the student is familiar with complex variables and Fourier theory. Topics include discrete-time signals and systems, sampling theorem, z-transform, discrete-time Fourier transform (DFT), fast Fourier transform (FFT) algorithms, digital filters, and multi-dimensional signal processing.

88028 Speech and Language Processing, 2 credits, Autumn Semester, Even years

T. Kobayashi, M. Okumura

This course provides an introduction to speech signal processing and natural language processing. Topics include fundamentals and recent advances in the theory and practice of speech and language processing, such as hidden Markov models, automatic speech recognition, text-to-speech synthesis, speech coding, morphological analysis, syntactic analysis, and information retrieval.

88023 Optical Imaging and Image Processing, 2 credits, Autumn Semester, Even years

M. Yamaguchi

Based on the knowledge of the diffraction and interference of light, optical imaging theory, and two-dimensional Fourier transform, the fundamentals of optical imaging systems and digital image processing are described. The applications in image analysis, restoration and reconstruction are also introduced.

88024 Statistical Madels of Brain and Parallel Computation, 2 credits, Autumn Semester, Odd years

I. Kumazawa

Some attempts are introduced to analyze and understand principals behind brain function and massively parallel computation. Methods of statistical physics and probabilistic computation are lectured in addition to programming exercises to confirm the behavior of the parallel systems based on these methods.

88102 Medical Image Informatics, 2 credits, Autumn Semester, Odd years

T. Obi

This course will feature an image and information aspects of a medical engineering, such as a mechanism of X-ray CT, SPECT and PET, image reconstruction methods etc. In addition, a diagnostic technique will be will be presented in the lecture.

88107 Fundamentals on VLSI Systems, 2 credits, Spring Semester, Even years

N. Sugino

The course will provide the students with an understanding basic knowledge for analysis and design of VLSI systems. Key topics are fundamentals on logic and sequential circuits, functional and arithmetic units, registers and memories, and etc. By use of above components, basics of processor architecture are also discussed.

88108 Advanced VLSI Systems, 2 credits, Autumn Semester, Odd years

N. Sugino

This course provides both hardware and software issues for modern microprocessor architectures. Nowadays, VLSI technology plays very important roles in information systems. Various applications are implemented on alternative architectures; some provide faster computation and some give lower power consumption. In order to understand and evaluate these architectures, this lecture provides fundamental issues on microprocessor architectures as well as modern design techniques to implement various applications efficiently. In addition, design automation methodologies for various architectures are introduced. Furthermore, software issues such as operating systems and compilers are given.

88109 Intelligent Information Systems, 2 credits, Autumn Semester, Even years

T. Ito, K. Sumita, K.Aida

As advanced computerized society becomes reality, a demand for hyper-functional, hyper-efficient intelligent information systems is skyrocketed in every corners of the society and therefore development of such systems is a crucial technological challenge. In particular, R&D and technological innovation for intelligent processing, such as recognition and understanding of media information that is represented by a picture and a sound, and their hyper-functional implementation are rapidly advancing and their importance grows exponentially. This lecture will discuss the newest technologies and R&D trends of the intelligent information systems, with its focus on the media information processing.

88110 Ultrasonic Electronics, 2 credits, Spring Semester, Even years

K. Nakamura

This lecture presents the fundamentals for generation, transmission, radiation and detection of ultrasonic waves as well as the unique effects of intense ultrasonics and their applications.
Theories of elastic wave phenomena, piezoelectricity and piezoelectric materials, and equivalent circuit modeling of transducers are given in this course.

88111 Micro-Acoustic Systems, 2 credits, Autumn Semester, Odd years

M. Kurosawa, K. Nakamura

Micro actuators and sensors based on elastic vibration and/or elastic wave are lectured. Starting from materials and fabrication technologies for MEMS (micro electro mechanical systems) devices, structures and principles of the transducers are introduced. A couple of sensors and actuators are studied in detail to obtain clear understanding for actual devices. For this purpose, modeling methods of the piezoelectric electro mechanical system and opto mechatro system are discussed.

88031 Language Engineering, 2 credits, Spring Semester, Odd years

M. Okumura

This lecture introduces natural language processing technologies that can realize analyzing and processing natural language on computers, and their application technologies, such as information retrieval. Information extraction, text summarization, question answering, and text mining.

88032 Computational Brain, 2 credits, Autumn Semester, Odd years

Y. Koike

Human brain adapt the environment by learning the appropriate actions. In this lecture, the methodology that clarifies the function of the brain based on the computational neuroscience is described, especially, optimization of movement, control, learning mechanisms.


Liberal Arts and General Education(G)

No. Subject Credit Chair Semester,
Year(+)
(See footnotes)		 Remarks
(See footnotes)
IGP (A) IGP (C)
88551 IPISE International Communication (IP) I 0-1-0 Supervisor Autumn #  
88552 IPISE International Communication (IP) II 0-1-0 Supervisor Spring #  
88553 IPISE International Communication (IP) III 0-1-0 Supervisor Autumn #  
88554 IPISE International Communication (IP) IV 0-1-0 Supervisor Spring #  
99405 Technical Writing 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99406 Technical Writing 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99412 Technical Writing 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99413 Technical Writing 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99403 Technical Discussion 1 0-2-0 D. Ricinschi
D. Berrar		 Spring  
99404 Technical Discussion 2 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99410 Technical Discussion 3 0-2-0 D. Ricinschi
D. Berrar		 Autumn  
99411 Technical Discussion 4 0-2-0 H. Gonzales
D. Ricinschi		 Spring  
99416 Critical Thinking 2-0-0 D. Ricinschi
H. Gonzales		 Autumn    
99415 Scientific Communication 2-0-0 D. Berrar
D. Ricinschi		 Spring    
99417 Global Trends in Science and Technology 2-0-0 H. Gonzales
D. Berrar		 Autumn    
99408 Ethics for Scientists and Engineers 2-0-0 M. Yamamura
Y. Iwamoto		 Autumn    

1)  #: Two of the four subjects, i.e. IPISE International Communication I through IV, must be taken.

2)  ‘Technical Writing’, ‘Technical Discussion’ can be registered only by the students who belong to IPISE, IGP(A) and Innovative Platform for Education and Research course (IPER).


5. Syllabus of the subjects common to all Departments

89134 Seminar for cultivating international understandings, 3 Credits, Autumn Semester

Chair K. Kajikawa

The purpose of this seminar is to provide a platform for international collaboration, mutual understanding and cooperation, while fostering the development of global human resources. The seminar consists of (a) informal research meetings as well as a gscience cafeh, (b) Mini-internship and (c) Corporative work between the foreign and Japanese students.

93059 Historical Review of Intellectual Property, 1 credit, Autumn Semester

Chair Y. Hayashi

The lecture provides a historical review of the patent system. It consists of the establishment of the first patent law in Venetia, the importance of the patent for the Industrial revolution in British, and for developing new frontiers in America. The beginning of the Japanese Patent system in Meiji is also included.

36005 Strategic Management of Technology, 2 credits, Spring Semester

K. Miyazaki

This course aims to teach the basic concepts, tools and theories needed for strategic management of technology. The topics covered include, innovation models, sectoral models of innovation, technological competence building, technological diversification strategy, technology portfolio management, globalization and management of research and development. Students are assessed by class participation, group presentations, debate, tests and short reports.

96053 Modern Japan, 1 Credit, Spring Semester

Chair(s) to be announced

Japan is regarded as an industrialized country, however it has many unique characteristics which differ from those of Western-industrialized countries. Selected foreign and Japanese authorities will lecture on how they view contemporary Japan, with special regard to research activities and career paths in the various fields of science and technology.

** IPISE International Communication (Department code) I-IV, 1 Credit for each Semester,
(I, III: Autumn Semester; II, IV: Spring Semester)

Supervisor

A seminar for students from different countries of IPISE to exchange information on background and objective their research.

*Also refer to 4. Curriculum and Syllabus for each Department if there is additional indication.

**The number of the subject should be the same with that shown in 4.Curriculum and Syllabus for each Department.

** IPISE Academic Presentation (Department code) I-X, 1 Credit for each Semester
(I, III, V, VII, IX : Autumn Semester; II, IV, VI, VIII, X : Spring Semester)

Supervisor

An opportunity for student to give her/his presentation on their progress of research activities in front of her/his supervisor.

*Also refer to 4. Curriculum and Syllabus for each Department if there is additional indication.

**The number of the subject should be the same with that shown in 4.Curriculum and Syllabus for each Department.

** IPISE Seminar (Department code) I|X, 2 Credits for each Semester
(I, III, V, VII, IX : Autumn Semester; II, IV, VI, VIII, X : Spring Semester)

Supervisor

Group seminar based on her/his research progress lead by supervisor(s).

*Also refer to 4. Curriculum and Syllabus for each Department if there is additional indication.

**The number of the subject should be the same with that shown in 4.Curriculum and Syllabus for each Department.

** IPISE Internship (Department code) IA, IB, IIA, IIB
(IA: 1 Credit, Spring Semester
IB: 1 Credit, Autumn Semester
IIA: 2 Credits, Spring Semester
IIB: 2 Credits, Autumn Semester

Department Chair

Internship at national research laboratories and domestic private industries for exchange.

**The number of the subject should be the same with that shown in 4.Curriculum and Syllabus for each Department.

99405 Technical Writing 1, 2 credits, Spring Semester
99406 Technical Writing 2, 2 credits, Autumn Semester
99412 Technical Writing 3, 2 credits, Autumn Semester
99413 Technical Writing 4, 2 credits, Spring Semester

D. Ricinschi, D. Berrar, H. Gonzales

To be one of the outstanding scientists in the international field, it is necessary to be able to write scholarly scientific and technical papers in English. Writing academic reports while learning the fundamental and advanced writing techniques is the principal aim of this course.

99403 Technical Discussion 1, 2 credits, Spring Semester
99404 Technical Discussion 2, 2 credits, Autumn Semester
99410 Technical Discussion 3, 2 credits, Autumn Semester
99411 Technical Discussion 4, 2 credits, Spring Semester

D. Ricinschi, D. Berrar, H. Gonzales

Practical exercises through English discussions and oral presentations will help students develop their English proficiency and eventually play an active role in the international field of research.

99416 Critical Thinking, 2 credits, Autumn Semester

D. Ricinschi, H. Gonzales, D. Berrar

The course aims to demonstrate the importance of thinking critically about the various issues in science and technology that students are likely to encounter during their future careers. Students will learn to ask the right questions when confronted with their peersf ideas and opinions, as well as to quickly find ambiguities, lack of evidence, weaknesses in argumentation, contradictions, and omissions in both written and oral communications. The course includes a discussion of the various approaches to the scientific inquiry, such as induction, deduction, and abduction, and logical fallacies. In addition to regular lectures, the course will have an important interactive component where students will practice constructive criticism on written/oral communications chosen by the instructor. the ultimate goal of this course will be to help students to improve the logical soundness of their own argumentations.

99415 Scientific Communication, 2 credits, Spring Semester

D. Berrar, D. Ricinschi, H. Gonzales

This course covers topics of scientific oral and written communication in English. The course objective is to develop and refine the students’ skills that are required for scientific publications and oral presentations. The main topics include (i) how to write and publish a scientific paper and (ii) how to give academic presentations at international conferences. The course objectives will be met through lectures and practice in writing exercises, oral presentations, and classroom discussions.

99417 Global Trends in Science and Technology, 2 credits, Autumn Semester

H. Gonzales, D. Berrar, D. Ricinschi

This course aims to enhance the studentsf knowledge of the current global concerns in relation to progress in science and technology as well as the scientific principles and techniques needed to address the reigning global issues. This will give students a basic understanding of the ongoing worldwide research and development in science and technology. Aside from the regular lectures, there will be a series of discussions on selected topics from science and technology that will allow students to freely express themselves as they share their respective insights. After completion of the course, the students are expected to have acquired an increased level of interest in and awareness of advances in scientific and technological research.

99408 Ethics for Scientists and Engineers, 2 credits, Autumn Semester

M. Yamamura, Y. Iwamoto

This omnibus lecture series covers topics related to research ethics, such as research misconduct and its prevention. Experts will explain research ethics by citing concrete examples from various fields, such as environmental policy and residential participation, bioethics, and the history of safety standards for gene recombination, the Helsinki Declaration (international ethical principles for biomedical research involving human subjects), examples of research misconduct (e.g., fabrication and falsification of data by Jan Hendrik Schön, Bell Labs), and ethics in information society. In small interactive groups of 3-5, students will present selected topics on ethics for scientists and engineers, which will then be discussed during the class.