Recent Trends on Electronic Systems

Course title

P2680900

	mano kazunori
	tanaka naohiko
	chen xinkai
	horio kazushige
and more...
	watanabe eiji
	kubota aya
	ioka eri

Course description

This class presents recent research topics in the field of electronic systems. The research field includes: compound semiconductor devices, signal processing, antenna technology, electric circuit, control theory, media processing and astrophysics.

Seven (7) professors in Department of Electronic Information Systems will serve the classes about recent trends in their research fields. Classes of each professor basically consist of a lecture and an exercise (two weeks). Follow the professors’ instruction about their assignments, reports, and discussions.

Purpose of class

This class is an English course to study the recent topics in the field of electronic systems and related physics.

Goals and objectives

Understand recent research topics in the field of electronic systems.
Acquire fundamental knowledge to understand recent research topics in the field of electronic systems.
Write appropriate reports according to professors' instruction.

Language

English

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Introduction to this class. Spoken language is the most fundamental communication method. We learn the basic mechanism of speech production and hearing, and discuss the recent progress of the speech and language information processing systems and services. （Prof. Mano）	Read the syllabus.	60minutes
1.		Review recent speech and language interfaces in the Internet.	120minutes
2.	Reporting on speech and language information processing. (Prof. Mano)	Prepare your reports or homework according to the professor's instruction.	190minutes
3.	A few industrial applications (micro/nano manufacturing, micro/nano operation, vibration control, etc.) of the advanced control theory will be introduced. (Prof. Chen)	Basic feedback knowledge is needed.	190minutes
4.	Reporting on industrial applications of the advanced control theory. (Prof. Chen)	Prepare your reports or homework according to the professor's instruction.	190minutes
5.	Synchronization is an important nonlinear phenomenon. In this theme, some examples (synchronization is seen in the natural environment, in our body and in electric circuit) will be introduced, and students will learn its application for various fields. (Assist. Prof. Ioka)	Study the definition of synchronization.	190minutes
6.	Reporting on syncronization of nonlinear phenomena. (Assist. Prof. Ioka)	Prepare your reports or homework according to the professor's instruction.	190minutes
7.	Black holes are now understood as a fundamental element in our universe. I will show how we know the existence of black holes which cannot be directly observed. Recent results on black holes based on X-ray observations will also be introduced. (Assoc. Prof. Kubota)	Review mechanics, especially the field of gravity like Newton’s law of gravitation.	190minutes
8.	Reporting on black hole physics. (Assoc. Prof. Kubota)	Prepare your reports or homework according to the professor's instruction.	190minutes
9.	We will carry out an experiment on LED flusher circuit. This course is intended to understand the transistor switching operation and the pulse response of CR circuit. (Prof. Tanaka)	Study the operation of astable multivibrator.	190minutes
10.	Reporting on the operation of LED flusher. (Prof. Tanaka)	Prepare your reports or homework according to the professor's instruction.	190minutes
11.	Modeling and simulation of compound semiconductor devices such as MESFETs, HEMTs and HBTs. (Prof. Horio)	Study the fundamentals of Semiconductor Electronics.	190minutes
12.	Reporting on modeling and simulation of compound semiconductor devices. （Prof. Horio）	Prepare your reports or homework according to the professor's instruction.	190minutes
13.	Title: Introductory Signal Processing The main theme of this title is to understand what signal processing is. To this end, fundamentals of signals and their processing systems are given, and some examples of simple signal processing systems are introduced. (Prof. Watanabe)	Survey the difference between analog and digital signal processing.	190minutes
14.	In this class, students do simple exercses on the Fourier transforms and their applications of linear signal processing systems. (Prof. Watanabe)	Studens should review the fundamentals of signal processing.	190minutes
Total.	-	-	2650minutes

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

	Discussions	Reports	Total.
1.	30%	10%	40%
2.	20%	20%	40%
3.		20%	20%
Total.	50%	50%	-

Evaluation method and criteria

Assignment report, participation and discussion.

Textbooks and reference materials

None

Prerequisites

Basic knowledge of electrical and electronic engineering, and physics.

Office hours and How to contact professors for questions

Tuesday 13:10-14:50 (Prof. Mano)

Relation to the environment

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Course that cultivates an ability for utilizing knowledge

Active-learning course

More than one class is interactive

Course by professor with work experience

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

Last modified : Sat Mar 23 04:22:20 JST 2019