2018 | Experiments of Information and Communications Engineering IV

2018　Experiments of Information and Communications Engineering IV

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Academic unit or major: Undergraduate major in Information and Communications Engineering

Instructor(s): Fukawa Kazuhiko Yamaoka Katsunori Tayu Satoshi Matsuta Tetsunao

Class Format

Media-enhanced courses

Day/Period(Room No.): Wed1-4(VLSI設計室)

Group: -

Course number: ICT.E314

Credits: 1

Academic year: 2018

Offered quarter: 3Q

Syllabus updated: 2018/10/4

Lecture notes updated: -

Language used: Japanese

Access Index

Syllabus

Course description and aims

Students are required to conduct computer simulations of real data transmission, which aims to make the students deeply understand digital modulation/demodulation, error detection codes, and protocols of data transmission.

Student learning outcomes

The purposes of the experiment are to quantitatively evaluate how severely noise and fading deteriorate transmission performance of the data transmission, and to learn some techniques for computer simulations.

Keywords

digital modulation/demodulation, noise, fading, error detection codes, CRC, protocols of data transmission

Competencies that will be developed

✔ Specialist skills

Intercultural skills

Communication skills

Critical thinking skills

Practical and/or problem-solving skills

Class flow

After lecturers explain principles and methods for computer simulations, students are required to make simulation programs, to run them, and to write reports on the results.

Course schedule/Required learning

	Course schedule	Required learning
Class 1	Explanations of data transmission experiments I and II. Start Experiments I and II.	Confirm principles of the data transmission experiments.
Class 2	Continue Experiment II.	Conduct Experiment II.
Class 3	Continue Experiment I.	Conduct Experiments II and III.
Class 4	Start Experiment III.	Conduct Experiment III.
Class 5	Continue Experiment III, and measure run time of Experiment III with parameters being the byte number and file size.	Conduct Experiment III and measure its run time.
Class 6	Continue to measure run time of Experiment III.	Measure run time of Experiment III.
Class 7	Explanation of experiments about CRC.	Learn principles of CRC.
Class 8	Solve problems of Hamming code and CRC.	Solve problems of CRC.
Class 9	Continue to solve problems of CRC.	Solve problems of CRC.
Class 10	Start experiments of CRC.	Conduct experiments of CRC.
Class 11	Continue experiments of CRC.	Conduct experiments of CRC.
Class 12	Explanations of both the models and experiments about the AWGN and fading channels.	Learn the AWGN and fading channels.
Class 13	Start the experiments about the AWGN and fading channels.	Conduct the experiments about the AWGN and fading channels.
Class 14	Continue the experiments about the AWGN and fading channels.	Conduct the experiments about the AWGN and fading channels.

Textbook(s)

Guide for the experiments to be distributed.

Reference books, course materials, etc.

not determined

Assessment criteria and methods

Marks are based on reports about the experiments.

Related courses

ICT.C214 ： Communication Systems
ICT.C209 ： Algebraic Systems and Coding Theory
ICT.C417 ： Data Communication System

Prerequisites (i.e., required knowledge, skills, courses, etc.)

None.

TOKYO INSTITUTE OF TECHNOLOGY