Introduction to Information and Communication Engineering

Course title

F0342309

	morino hiroaki
	kamioka eiji
	kanzawa yuuchi
	gyoda koichi
and more...
	kubota shuji
	tanaka shinichi
	hirose kazuhide
	horie ryota
	muto kenji
	saitoh atsushi
	miyata sumiko
	LEE HEEYOUNG

Course description

This course aims to understand the overview of advanced research topics about information and communications engineering. 6 of 12 faculty members give lectures biweekly about their research themes and topics in omnibus form. Not only faculty member's specialty but also the basic and wide knowledge about communications engineering can be acquired.

Purpose of class

The students taking this course will be able to understand the overview of advanced research topics on information and communication engineering.

Goals and objectives

Acquire an overview of advanced research topics about information and communication engineering.
Understand the basic principles of information and communication technology.
Develop skills to understand the implications of information and communication technologies applied in the society

Language

English

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Guidance	Read and understand the handouts.	190minutes
2.	Lecture from Prof. Yuchi KANZAWA: Yuchi KANZAWA: Mathematics for fuzzy cluster analysis (mathematical formation of clustered data, mathematical methodology for fuzzy clustering, mathematical description of clustering application)	Read and understand the handouts.	190minutes
3.	Lecture from Prof. Eiji KAMIOKA: Mobile Multimedia Communications, Ubiquitous Computing Networks, Ambient Intelligence, Context-aware Computing, Communications Quality, User Satisfaction of Information and Communication Services, Information Systems using Biological Information.	Read and understand the handouts.	190minutes
4.	Lecture from Prof. Shuji KUBOTA: Transmission technologies for wireless LAN, short range wireless communication systems and advanced RFID Services are introduced and discussed.	Read and understand the handouts.	190minutes
5.	Lecture from Assoc. Prof. Atsushi SAITO: Chemical sensor acting for our taste sense and olfactory sense and its application, Sensor data processing and sensor data fusion for recognition of complex contents.	Read and understand the handouts.	190minutes
6.	Lecture from Prof. Koichi GYODA: Emergency wireless communications network construction technologies, Ad hoc networking for remote controlled rescue robots, inter-vehicle communications, etc., Information and communication technologies required at the disasters.	Read and understand the handouts.	190minutes
7.	Lecture from Assoc. Prof. Sumiko MIYATA: Resource allocation and admission control in networks Media access control analysis for the optical network (EPON) Cooperative networks Game theory, queuing theory and its applications in networks Security of wireless and communication networks.	Read and understand the handouts.	190minutes
8.	Lecture from Prof. Kazuhide HIROSE: Wideband microstrip antennas, Broadband planar antennas for high-speed wireless communications, Computational electromagnetics for antennas	Complete the assignment given by each lecturer	190minutes
9.	Lecture from Assoc. Prof. Ryota HORIE: Brain computer interface technology, measuring brain activity, principle of electroencephalography	Complete the assignment given by each lecturer	190minutes
10.	Lecture from Prof. Shinichi TANAKA: High frequency devices and circuits, Microwave circuit design using techniques using CAD technologies, Introduction to current topics in microwave passive and active components.	Complete the assignment given by each lecturer	190minutes
11.	Lecture from Prof. Kenji MUTO: Sound signal processing, Active noise control, Noise measurement.	Complete the assignment given by each lecturer	190minutes
12.	Lecture from Prof. Hiroaki MORINO: Worldwide Live P2P streaming(P2PTV), Inter-vehicle wireless communication for safety assist, Disaster communication using wireless ad hoc networks by smartphones, Mobile sensing and wireless community networks.	Complete the assignment given by each lecturer	190minutes
13.	Lecture from Asst. Prof. Heeyoung LEE: Distributed strain and temperature sensing using optical fibers, Device applications of Brillouin/Raman scattering, Plastic fiber optics.	Complete the assignment given by each lecturer	190minutes
14.	Examination and review	Complete the assignment given by each lecturer	190minutes
15.	*
Total.	-	-	2660minutes

Relationship between 'Goals and Objectives' and 'Course Outcomes'

	Test	Total.
1.	40%	40%
2.	30%	30%
3.	30%	30%
Total.	100%	-

Evaluation method and criteria

-Grade is judged by examination (100%).
-Passing standard is 60% or higher.
Minimum score of 60 points will be obtained by outline.

Textbooks and reference materials

Each faculty member will indicate them.

Prerequisites

See the information of each laboratory or faculty staff by web.

Office hours and How to contact professors for questions

After the class.

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Non-social and professional independence development course

Active-learning course

N/A

Course by professor with work experience

Work experience	Work experience and relevance to the course content if applicatable
N/A	N/A

Education related SDGs:the Sustainable Development Goals

9.INDUSTRY, INNOVATION AND INFRASTRUCTURE

Last modified : Mon Nov 02 04:03:47 JST 2020