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Class Time-Table and Descriptions for Fall Semester, 2006

Class Time-Table

Class_Time-Table_2006_02.pdf (118KB)

Class Descriptions

Lecture Code 2006BJ01A
Lecture Title Elementary Japanese IA
Credit 6 ([Contact Hour: 9.0h/w + Self-Study Hour: 3.0 h/w] x 15 weeks)
Day of Class Tuesday #1, #2, #3
Wednesday #3 #4 & Friday #1 & #2
Lecturer Name Section of Japanese Language and Japanese Culture
Extension    
E-mail     
Textbook   
Pre-requirement NIL: There is a placement test for Japanese Classes.
Course Description  
Lecture Code 2006BJ01B
Lecture Title Elementary Japanese IB
Credit 6 ([Contact Hour: 9.0h/w + Self-Study Hour: 3.0 h/w] x 15 weeks)
Day of Class Tuesday #1, #2, #3
Wednesday #3 #4 & Friday #1 & #2
Lecturer Name Section of Japanese Language and Japanese Culture
Extension   
E-mail   
Textbook   
Pre-requirement NIL: There is a placement test for Japanese Classes.
Course Description  
Lecture Code 2006BJ02A
Lecture Title Elementary Japanese IIA
Credit 6 ([Contact Hour: 9.0h/w + Self-Study Hour: 3.0 h/w] x 15 weeks)
Day of Class Tuesday #1, #2, #3
Wednesday #3 #4 & Friday #1 & #2
Lecturer Name Section of Japanese Language and Japanese Culture
Extension   
E-mail   
Textbook   
Pre-requirement NIL: There is a placement test for Japanese Classes.
Course Description

Elementary Japanese IIA is designed for students who completed Elementary Japanese IA or who have equivalent standards with over 150 Kanji vocabulary.

Lecture Code 2006BJ03A
Lecture Title Intermediate Japanese Language IA
Credit 6 ([Contact Hour: 9.0h/w + Self-Study Hour: 3.0 h/w] x 15 weeks)
Day of Class Tuesday #1, #2, #3
Wednesday #3 #4 & Friday #1 & #2
Lecturer Name Section of Japanese Language and Japanese Culture
Extension   
E-mail   
Textbook   
Pre-requirement NIL: There is a placement test for Japanese Classes.
Course Description

Intermediate Japanese Language I is designed for students who completed Elementary Japanese IIA/IIB or who have equivalent standards with over 300 Kanji vocabulary and reasonable communication skills.

Lecture Code 2006BQ01
Lecture Title UEC Academic Skills I (Computer Literacy)
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 2.5h/w] x 15 weeks)
Day of Class Wednesday #2
Lecturer Name Dr Masahisa SUZUKI
Extension 5746
E-mail suzuki@fedu.uec.ac.jp
Textbook   
Pre-requirement   
Course Description UEC Academic Class is designed to give you some grapes of all sorts of computer experience. It aims to give you an opportunity to get familiar with very basic computer skills for Academic Work and Study. You will learn introductory parts of UNIX Networking Computer, Fortran, C Language, TeX and HTML (Homepage Making).

No advanced contents will be taught, but it is a core subject for all new JUSST Students.
Lecture Code 2006BQ02
Lecture Title UEC Academic Skills II (Cross-Cultural Communication)
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 2.5h/w] x 15 weeks)
Day of Class Thursday #6
Lecturer Name Dr Masahisa SUZUKI
Extension 5746
E-mail suzuki@fedu.uec.ac.jp
Textbook   
Pre-requirement   
Course Description You will learn a presentation skill for oral / poster presentation. At the end of semester, all new/senior JUSST Students are required to give a presentation on their major study and research. New JUSST Students will be required to give poster presentation with 1-2 panel space given. Senior JUSST Students of Postgraduate will be required to give an oral presentation for 20 minutes.

No advanced contents will be taught, but it is a core subject for all new JUSST Students.
Lecture Code 2006BQ03
Lecture Title UEC Academic Skills III (Research & Presentation)
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 2.5h/w] x 15 weeks)
Day of Class Friday #3
Lecturer Name Dr Masahisa SUZUKI
Extension 5746
E-mail suzuki@fedu.uec.ac.jp
Textbook   
Pre-requirement   
Course Description This Class is also a core subject for all JUSST Exchange Students in their SECOND semester.

This class focuses attention on the exercise of strategic research project. Students are required to carry out a study/research project for more than a half of year with a specific topic. Then, they have to proceed their own project after they choose their own topic and make a monthly plan. At the end of semester, there will be an international mini-conference that has participants of all new and senior JUSST Exchange Students and other regular UEC Students. Students are required to give a presentation on their projects that they decide at the beginning of class. Postgraduate Students will be required to give an oral presentation for 20 minutes in the conference.
Lecture Code 2006BQ04
Lecture Title UEC Academic Skills IV (Comprehensive Reading & Summary Writing)
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 2.5h/w] x 15 weeks)
Day of Class Monday #6
Lecturer Name Dr Masahisa SUZUKI and Associates
Extension 5746
E-mail suzuki@fedu.uec.ac.jp
Textbook   
Pre-requirement   
Course Description In this class, you will learn comprehensive reading skills and summary skills for scientific and business purpose. Every week, you will do short or long article reading on scientific and business topics. We expect that you will increase your vocabulary and pick-up skills of keywords in a text.

No advanced contents will be taught, but it is a core subject for all new JUSST Students.
Lecture Code 2006BQ05
Lecture Title UEC Academic Skills V (Maths & Scientific Writing)
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 2.5h/w] x 15 weeks)
Day of Class Wednesday #6
Lecturer Name Dr Masahisa SUZUKI and Associates
Extension 5746
E-mail suzuki@fedu.uec.ac.jp
Textbook   
Pre-requirement High School Maths
Course Description In this class, you will develop your mathematical writing skills and scientific writing skills through many writing exercises.  Teachers and tutors will correct your writing every week in/out of this class. High School Maths books will be used for the beginning of semester. You will probably be able to read out most university maths expressions by the end of this semester. IELTS base English writing exercise will also be carried out in this class.

No advanced contents will be taught, but it is a core subject for all new JUSST Students.
Lecture Code 2006BTLA03
Lecture Title Parallel Computation
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Friday #5
Lecturer Name Prof. Shigeyoshi WATANABE
Extension 5243
E-mail watanabe@ice.uec.ac.jp
Textbook  None
Pre-requirement  None
Course Description This course covers the fundamental subjects of parallel computer architectures and parallel algorithms. In the lecture several topics of parallel computation were introduced and typical problems were given to students. The topics includes the simulation of artificial life and multi agent systems which demonstrate the interaction between animals in a field or an artificial stock market and which are originated by the lecturer.

(Assessment Policy)
Three assignments as homework were given to all students and the results were assessed. The grade was determined by the assessment and the attendance record.
Lecture Code 2006BTLB01
Lecture Title Computer Argorithms
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Thursday #4
Lecturer Name Dr. Satoshi KOBAYASHI
Extension 5315
E-mail satoshi@cs.uec.ac.jp
Textbook  reference books:  "Introduction to Algorithms" T.H. Cormen, C.E. Leiserson, and R. Rivest        The MIT Press
"The Design and Analysis of Computer Algorithms"  A.V. Aho, J.E. Hopcroft, and J.D. Ullman       Addison-Wesley
"The C Programming Language: ANSI C Version"   B.W. Kernighan     Prentice-Hall, Inc. (Prentice-Hall Software Series)
Pre-requirement  1. Fundamentals of discrete mathematics,
 2. Basics of data structures, such as arrays, lists, binary trees, etc.
 3. Programming skills with C language
Course Description (Objectives)
This lecture gives the introduction to the design and analysis of computer algorithms. The mathematical
proof of the correctness and the efficiency of algorithms are emphasized in the lecture.

(Outline of Class and Contents)
After an introductory explanation of how to analyze the time and space efficiency of computer algorithms, the lecture gives various kinds of computer algorithms for sorting, minimum spanning tree, shortest paths,  string matching, etc.

(Assessment Policy)
 final exam: 80%, attendance rate & reports 20 %
Lecture Code 2006BTLB02
Lecture Title Computer Networks
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Tuesday #4
Lecturer Name Dr. Kenji SUZUKI
Extension  
E-mail suzuki@cs.uec.ac.jp
Textbook provide documents if necessary.
Pre-requirement None
Course Description (Objectives)
The rapid progress of computer and communication technology enable us to access various information systems and services by using PC and cellular phones.  This lecture covers the fundamental technology of computer communications such as communication architecture and protocols as well as communication and information systems.

(Outline of Class and Contents)
Lecture and /or group discussions are the key methods.  In some occasions, we will invite some experts from the industries to discuss specific topics on computer networks.

The following topics are included.
1. Current services and functions of computer networks
2. Network Architecture
  (Role of network architecture, OSI reference model)
3. Communication Protocols
 (Packet communications, TCP/IP, Routing, Messaging, and File Transfer Protocols)
4. Information Systems
 (Distributed and centralized systems,  Enterprise Information systems)

(Assessment Policy)
Reports and presentations are evaluated in the lecture
Lecture Code 2006BTLC03
Lecture Title VLSI Devices and Technology
Credit  2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Thursday #5
Lecturer Name Prof. Shinji NOZAKI
Extension 5279
E-mail nozaki@ee.uec.ac.jp
Textbook The handouts will be given in the class.
Pre-requirement semiconductor physics or equivalent courses
Course Description (Objectives)
This course consists of series of lectures and labs covering device physics of silicon bipolar transistors and MOSFET's and VLSI process technology and exposes you to state-of-the-art semiconductor process equipment in the clean room.

(Outline of Class and Contents)
This will include the following topics: (a) Bipolar transistors, (b) MOS capacitors, (c) MOSFET's, (d) CCD's, MOS memories (DRAM, SRAM, EPROM, Flash), and (e) VLSI process technology

(Assessment Policy)
Assessment of the student performance in the class will be made based on grades on the lab report (20 %), mid-term take-home exam (40 %) and final exam (40 %).
Lecture Code 2006BTLC05
Lecture Title Introduction to Modern Optics and Photonics
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Tuesday #5
Lecturer Name Prof. Yasuo TOMITA
Extension 5164
E-mail ytomita@ee.uec.ac.jp
Textbook Instructor's notes will be provided. Material will also be taken from the following optional textbooks:
1) A.Yariv, Optical Electronics in Modern Communications, Oxford Univ. Press, Oxford, 1997.
2) S.G. Lipson et al., Optical Physics, 3rd ed., Cambridge Univ. Press, Cambridge, 1995.
3) B.E.A. Saleh and M.C. Teich, Fundamentals of Photonics, Wiley, New York, 1991.
Pre-requirement A good understanding of introductory electromagnetics and linear systems theory may be helpful.
Course Description (Objectives)
This is an introductory-level course in the ever-increasing field of modern optics. It includes ray- and wave-descriptions of light propagation and image formation with coherent light. An introduction to holography and optical information processing is also given as an example of parallel and multi-dimensional data handling capabilities of light. Furthermore, it contains discussions of photonic devices (such as lasers, amplifiers, light modulators and detectors) and fiber-optic communications systems.

(Outline of Class and Contents)
Topics in 90-minute lectures will include:
1. Geometrical (ray) optics
2. Wave optics
3. Fourier optics
4. Electromagnetic and crystal optics
5. Guided-wave and fiber optics
6. Introduction to fiber-optic communications

(Assessment Policy)
The grades will be based 20% on the homework, 30% on the mid-term exam and 50% on the final exam.
Lecture Code 2006BTLD01
Lecture Title Electronics Experimental Laboratory
Credit 3 ([Contact Hour: 4.5h/w + Exercise Hour: 1.5h/w] x 15 weeks)
Day of Class Thursday #2, #3 & #4
Lecturer Name Prof. Shigeo HAYASHI
Extension 5496
E-mail hays@pc.uec.ac.jp
Textbook Laboratory Manual (free)
Pre-requirement None
Course Description (Objectives)
This course aims for providing the students, who may have no practical knowledge of electrical circuits, with the basics of electronics.

(Outline of Class and Contents)
The student builds every other week the following six electrical circuits 
on the solderless breadboard and measure and analyze various properties:
1) Transformer-coupled circuits involving C or L
2) Transformer-coupled circuits involving L and C or a diode
3) Op-amp based circuits featuring band-pass filter and phase shifter
4) Single-stage transistor amplifier and related circuits
5) Logic gates featuring RS-flip flop and full adder
6) Clocked-logic circuits featuring frequency doubler

Prelab lectures are given in the no-experiment week after the reports on the preceding subject have been assessed. An optional project, Z80-based single-board computer and machine-language programming, is also available.

(Assessment Policy)
It is mandatory to finish all the projects listed above. Each project will not be considered to be completed until the student submits a report on the project, which is subject to quick, oral interrogation. The report will be assessed.
Lecture Code 2006BTLF03
Lecture Title Manufacturing Systems Engineering
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Monday #5
Lecturer Name Prof. Kenji YURA
Extension 5266
E-mail yura@se.uec.ac.jp
Textbook K. Hitomi, Manufacturing Systems Engineering (2nd Edition), Taylor & Francis (1996)
E. A. Elsayed and T. O. Boucher, Analysis and Control of Production Systems (2nd Edition), Prentice-Hall (1994)J. A. Tompkins et al., Facilities Planning (2nd Edition), John Wiley & Sons (1996)
Pre-requirement NIL
Course Description (Objectives)
This course covers the fundamental principles about design, control and management of manufacturing systems. The course is planned so that the students can understand basic concepts and methodologies in IE
(industrial engineering) and POM (production and operations management). Further, the students are educated to know the meanings of recent trends in current manufacturing industries.

(Outline of Class and Contents)
1. The concepts of manufacturing systems 
2. Process systems for manufacturing
2.1 Manufacturing technologies
2.2 Process route analysis
2.3 Process layout
3. Production Planning and Scheduling 
3.1 Production forecasting
3.2 Production planning
3.3 Production scheduling
4. Recent trends
4.1 Lean manufacturing
4.2 Green manufacturing
4.3 e-manufacturing

(Assessment Policy)
The students need to attend the class and prepare reports on exercise problems during the semester. One examination will be carried out at the end of semester. The test is the most important factor (70%) in assessment. The reports and his/her attendance rate are taken into account as the subsidiary factors (30%).
Lecture Code 2006BTLF04
Lecture Title Quality and Reliability Engineering; The Japanese Way
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Thursday #1
Lecturer Name Prof. Kazuyuki SUZUKI
Extension 5265
E-mail suzuki@se.uec.ac.jp
Textbook  
Pre-requirement  
Course Description A lot of Japanese products have been spreading out all over the world. One of these reasons is high quality and reliability of Japanese products. Quality control(QC) in Japan has developed after World War 2, and now the Japanese way of QC is adopted in USA, Europe and Asia. In USA, reliability and quality are categorized in different fields but in Japan they are considered to be closely related each other. This lecture course focuses on the philosophy, ideas and scientific method used to build quality and reliability into products and systems. Also, recent development of information technology has been changing the way of QC and Reliability Engineering. This new aspects is also dealt with.
1. World Wide Quality Revolution
History of Quality and Quality Control, Origin of "Made in Germany", Japanese TQC and its Spread to the World, Rally of USA.
2. Quality Assurance(QA) and Total Quality Management
Meaning of Quality, What is QA? New Product Development and QA, Quality Functional Development, Four leading principles of Japanese TQC.
3. Statistical Quality Control
QC seven tools, New QC seven tools, Statistical Process Control, Design of Experiments
4. Reliability Engineering
Structure of Reliability, QA steps and Reliability Methods, Systems Reliability, Failure Analysis and Design Review, Statistical Reliability Methods, FMEA and FTA, Information Technology and RE.
Lecture Code 2006BTLG02
Lecture Title Japanese Human Relations
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Thursday #4
Lecturer Name Prof. Yoshimichi NAKAJIMA
Extension 5534
E-mail nakajima@hc.uec.ac.jp
Textbook Various materials concerning the lecture are prepared in the class.
Pre-requirement  
Course Description (Objectives)
This lecture aims at learning the typical Japanese Human Relations which are for the most of foreign students not easy to understand and sometimes embarrassing.

(Outline of Class and Contents)
This lecture deals with following subjects.
1)Atomsphere(or climate) of Japanese society
2)Some basic concepts of Japanese Human Relations,-- "Seken","Honne and Tatemae","Giri and Ninjyo", "On", "Nemawashi"etc.
3)Brief history of Japan
4)Costums and Habits of Japanese soceity
5)The way of thinking of young Japanese men and women.

(Assessment Policy)
Following conditions are demanded for getting the unit.
1)Attending the class
2)Positive attitude in the class
3)An Oral and a written report
4)Attending excursion to the Center of Tokyo
If a student satisfies 1),2),3) and 4) is very good, the grade is A(orAA). If a student doesn't satisfy 2 of these
conditions, no unit is given.
Lecture Code 2006BTLR01
Lecture Title Applied Modelling with Mathematics #1
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Monday #3
Lecturer Name Dr Masahisa SUZUKI
Extension 5746
E-mail suzuki@fedu.uec.ac.jp
Textbook NIL
Pre-requirement Students are require to be confident with O.D.E. P.D.E. 
Course Description Computer Simulation has become common to proceed in many areas of sciences and engineering. This class aims to do brain storming with several key topics of dynamics. From this exercise, we focus attention on how to establish mathematical modeling for your needs.
Lecture Code 2006BTLR02
Lecture Title Introduction to Digital Signal Processing
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Monday #2
Lecturer Name Prof. Nobuo HAMANO
Extension 5813
E-mail n-hamano@office.uec.ac.jp
Textbook Discrete-Time Signal Processing, 2nd edition    A.V. Oppenheim et al., Prentice-Hall
Pre-requirement Fundamental knowledge of AC circuits and linear systems is helpful. 
Course Description (Objectives)
An increasing number of electronic systems today, to name a few: television, audio and wireless communication systems, rely heavily on digital signal processing technologies for achieving their superb performance and sophisticated functionalities. Aim of this course is to introduce the basic concepts and techniques underlying the digital signal processing along with a few examples of practical applications.

(Outline of Class and Contents)
The course will focus on fundamental concepts of discrete-time signals and systems including the following subjects:
(1)    Discrete-time representation of signals
(2)    Z-transform and discrete- time system analysis
(3)    Sampling and aliasing
(4)    Transform analysis of linear time-invariant systems
(5)    Design of IIR and FIR filters
(6)    Discrete Fourier Transform and Discrete Cosine Transform
(7)    Topical subjects

(Assessment Policy)

Final exam:40%, Homeworks:40% , Attendance: 20%.
Lecture Code 2006BTLR05
Lecture Title TV Broadcasting Engineering
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Wednesday #1
Lecturer Name Prof. Noboru TOYAMA
Extension 5744
E-mail toyama@fedu.uec.ac.jp
Textbook  
Pre-requirement  
Course Description This course will cover the fundamental principles of Broadcasting Systems. Subjects to be covered will include;
1. Basic terrestrial broadcasting system,
2. Basic satellite broadcasting system,
3. Basic MUSE HDTV system,
4. Basic Digital satellite broadcasting system,
5. Basic terrestrial digital broadcsting system,
6. Introduction to the state-of-the-art broadcasting technologies such as Large-Screen Plasma Display, Mobile receiver, SNG, etc.
Lecture Code 2006BTLR06
Lecture Title Radio Wave Engineering
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Tuesday #5
Lecturer Name Professor Noboru TOYAMA
Extension 5744
E-mail toyama@fedu.uec.ac.jp
Textbook  
Pre-requirement  
Course Description This course will cover basic ideas of radio waves, radio propagation and antennas. The subject will include the following:
1. Fundamentals of Electromagnetic Theory
2. Characteristics of Electromagnetic Waves
3. Wave Propagation
4. Antennas
5. Recent Topics of Radio Waves and Antennas
Lecture Code 2006BTLR07
Lecture Title Communication Systems
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Monday #1
Lecturer Name Prof. Noboru TOYAMA
Extension 5744
E-mail toyama@fedu.uec.ac.jp
Textbook Modern Digital and Analog Communication Systems, Third Edition, by B.P. Lathi (Oxford University Press, 1998) 
Pre-requirement Trigonometric identities, Integrals, Fourier series, and some othert basic knowledge of mathematics, and LCR circuits.
Course Description This course must be taken concurrently with the course "Communication Systems Laboratory." First two classes will be review sessions that concentrate efforts on familiarizing tudents with the basic mathematical knowledge including the subjects listed in the prerequisites. Students who do not have confidence in those items are requested to make extra efforts to catch up with other students during the first two classes. This course together with Communication System Laboratory.“ discusses in depth how digital and analog communication systems work. The basic tools used here are waveform analyses. Topics covered in this course are, signal analysis, the Fourier spectrum, the autocorrelation function, power spectrum, line coding, intersymbol interference, roll-off filters, the discrete Fourier transform, the Hilbert transform, and various types of modulation. Some experiments in threshold effects in the presence of noise are included. From the first chapter up to chapter 7 of the textbook will be covered during the course hours. The remaining chapters will be covered in the course given in the spring semester.
Lecture Code 2006BTLR08
Lecture Title Communication Systems Laboratory
Credit 1 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Friday #4
Lecturer Name Prof. Noboru TOYAMA
Extension 5744
E-mail toyama@fedu.uec.ac.jp
Textbook  
Pre-requirement  
Course Description This course is the course work for the lecture given in "Communication Systems." Therefore, it must be taken concurrently with the course " Communication Systems." This course concentrates efforts on solving problems directly related to the lecture given in the above course. For detailed explanations see the course description for "Communication Systems."
Lecture Code 2006BTYI01
Lecture Title Advanced Image Engineering
Credit 2 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Thursday #3
Lecturer Name Prof. Shigeo MIKOSHIBA
Extension  5176
E-mail mikoshiba@ee.uec.ac.jp
Textbook Lecture notes will be distributed at the class. 
Pre-requirement None
Course Description (Objectives)
A huge amount of information is acquired by means of imaging devices including TVs, computer monitors, printers, photos and movies. Invisible radiation is also employed in the engineering, medical, and geographical fields. In this lecture, technologies related to the imaging devices and systems will be discussed with a special emphasis on electronic display devices.

(Outline of class and contents)
The topics treated in the lecture include,
1. Introduction to Image Displays
2. Vision
3. Photometry
4. Color Science
5. Mixing of Colors
6. Gray Scale and Color Expression
7. Cathode Ray Tubes
8. Liquid Crystal Displays
9. Plasma Displays
10. Organic Light Emitting Diode Displays
11. 3-Dimensional Displays
12. X-Ray Computer Tomography

(Assessment policy)
Scores will be evaluated by assignments and a final exam.
Lecture Code 2006BTLZ01-1
Lecture Title Lifelong Learning in Sports (Flying disc)
Credit 1 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Thursday #2
Lecturer Name  Koyo FUKASAWA (Lecturer)
Extension  5584
E-mail  fukasawa@hc.uec.ac.jp
Textbook  
Pre-requirement  
Course Description (Objectives)
Sport is a vital part of human culture affecting both our physical and mental lives.  Participation in sport fulfills a basic need to exercise, provides psychological satisfaction and contributes to overall health and fitness.
In addition, as sport is played with common rule around the world, it helps to overcome language barriers, promotes international understanding and increases world friendship and good will as a common global culture.
The objectives of the course are to acquire skills and knowledge for enjoying sport throughout lifelong and develop health and fitness.

(Outline of class and contents)
        Introduction of Lessons
        Accuracy
        Dodgebee
        Disc Golf
        Guts
        Ultimate
        Creation of New Games
(The assessment policy)
        Attendance of Lessons: 60%
        Achievement of Skill: 20%
        Reports: 10%
        Positive Collaboration Attitude: 10%
 
Lecture Code 2006BTLZ02-1
Lecture Title Lifelong Learning in Sports (Judo and Art of Self-defense)
Credit 1 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Thursday #2,#3
Lecturer Name  Prof. Hisashi YANAGISAWA
Extension  5583
E-mail  yanagi@e-one.uec.ac.jp
Textbook  
Pre-requirement  
Course Description  (Objectives)
Sport is a vital part of human culture affecting both our physical and mental lives.  Participation in sport fulfills a basic need to exercise, provides psychological satisfaction and contributes to overall health and fitness.
In addition, as sport is played with common rule around the world, it helps to overcome language barriers, promotes international understanding and increases world friendship and good will as a common global culture.
The objectives of the course are to acquire skills and knowledge for enjoying sport throughout lifelong and develop health and fitness.

(Outline of class and contents)
           Introduction of Lessons
            Offensive & Defensive Battle Employing Sword and Knife
            Exercise in Battle with Bare Hand
            Escrima (employing stick)
            Resuscitation Techniques
            Creation of New Arts and Practice

(The assessment policy)
           Attendance of Lessons: 60%
           Achievement of Skill: 20%
           Reports: 10%
           Positive Collaboration Attitude: 10%
Lecture Code 2006BTLZ03-1
Lecture Title Lifelong Learning in Sports (Table Tennis)
Credit 1 ([Contact Hour: 1.5h/w + Exercise Hour: 0.5h/w] x 15 weeks)
Day of Class Thursday #2,#3
Lecturer Name  Yukio KITAGAWA (Part-time Lecturer)
Extension  5589
E-mail   kitagawa@iwcpe.ac.jp
Textbook  
Pre-requirement  
Course Description (Objectives)
Sport is a vital part of human culture affecting both our physical and mental lives.  Participation in sport fulfills a basic need to exercise, provides psychological satisfaction and contributes to overall health and fitness.
In addition, as sport is played with common rule around the world, it helps to overcome language barriers, promotes international understanding and increases world friendship and good will as a common global culture.
The objectives of the course are to acquire skills and knowledge for enjoying sport throughout lifelong and develop health and fitness.

(Outline of class and contents)
        Introduction of Lessons
        Stroke (Forehand and Backhand)
        Service & Receive
        Smash & Receive
        Strategy of Game (Doubles Game and Singles Game)
        Games (Doubles Game and Singles Game)      

(The assessment policy):
        Attendance of Lessons: 60%
        Achievement of Skill: 20%
        Reports: 10%
        Positive Collaboration Attitude: 10%
 

Created: May 20, 2006 / Last modified: November 19, 2012