Signal Processing

Course title

G0027000

Signal Processing

	KANOH Shinichiro
	ISHIKAWA Hiroyasu
	YAMAGUCHI Masaki

Course description

Digital signal processing is the fundamental technology for image and voice processing, communications, measurement, control or mechatronics. On digital signal processing, analog data was converted to discrete value by sampling and quantization, and then numeric operations are applied on computer or dedicated processor. In this lecture, basics of digital signal processing is introduced for beginners, especially, DFT (discrete Fourier transform), FFT (fast Fourier Transform) and Digital Filter. Hands-on of digital signal processing by using scientific calculation software MATLAB will be held during lecture.

Purpose of class

Students will learn basic digital signal processing and acquire the knowledge necessary for designing signal processing circuits. Students will learn basic numerical calculation of digital signal processing by using MATLAB.

Goals and objectives

Students can understand the basics of digital signal processing (corresponding to lesson plans 1 and 2).
Students can understand discrete Fourier transform and its numerical calculation (corresponding to lesson plans 3-6).
Students can understand the basics of digital filter and the method to design digital filters (corresponding to lesson plans 8-13).

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

	Midterm Examination	Final Examination	Report	Total.
1.	20%	5%	5%	30%
2.	20%	10%	5%	35%
3.		25%	10%	35%
Total.	40%	40%	20%	-

Evaluation method and criteria

Examination 1: 40%
Examination 2: 40%
Homework and Report: 20%
Overall score should not be less than 60/100 points. The total score of 60 is a level that evaluates that you have acquired the knowledge necessary to understand the algorithms of basic software that realizes digital signal processing and to acquire more specialized knowledge.

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Guidance Section 1: introduction Section 2: discrete-time signal (1)	[Preparation] Read corresponding section of the textbook.	60minutes
1.		[Brush up] Numerical calculation by using MATLAB.	120minutes
2.	Section 2: discrete-time signal (2) Discrete-time Fourier transform Sampling theorem Normalized frequency	[Preparation] Read corresponding section of the textbook.	60minutes
2.		[Brush up] Numerical calculation by using MATLAB.	120minutes
3.	Section 3: discrerte Fourier transform (1)	[Preparation] Read corresponding section of the textbook.	60minutes
3.	Section 3: discrerte Fourier transform (1)	[Brush up] Numerical calculation by using MATLAB.	120minutes
4.	Section 3: discrerte Fourier transform (2)	[Preparation] Read corresponding section of the textbook.	60minutes
4.	Section 3: discrerte Fourier transform (2)	[Brush up] Numerical calculation by using MATLAB.	120minutes
5.	Section 4: fast Fourier transform (1)	[Preparation] Read corresponding section of the textbook.	60minutes
5.	Section 4: fast Fourier transform (1)	[Brush up] Numerical calculation by using MATLAB.	120minutes
6.	Section 4: fast Fourier transform (2)	[Preparation] Read corresponding section of the textbook.	60minutes
6.	Section 4: fast Fourier transform (2)	[Brush up] Numerical calculation by using MATLAB.	120minutes
7.	Summary 1 and Examination 1	[Brush up] Review Section 1 to 4 before examination.	300minutes
8.	Section 5: digital filter (1)	[Preparation] Read corresponding section of the textbook.	60minutes
8.	Section 5: digital filter (1)	[Brush up] Numerical calculation by using MATLAB.	120minutes
9.	Section 5: digital filter (2)	[Preparation] Read corresponding section of the textbook.	60minutes
9.	Section 5: digital filter (2)	[Brush up] Numerical calculation by using MATLAB.	120minutes
10.	Section 6: z-transform	[Preparation] Read corresponding section of the textbook.	60minutes
10.	Section 6: z-transform	[Brush up] Numerical calculation by using MATLAB.	120minutes
11.	Section 7: analysis of digital filter	[Preparation] Read corresponding section of the textbook.	60minutes
11.	Section 7: analysis of digital filter	[Brush up] Numerical calculation by using MATLAB.	120minutes
12.	Section 8: frequency selective digital filter	[Preparation] Read corresponding section of the textbook.	60minutes
12.	Section 8: frequency selective digital filter	[Brush up] Numerical calculation by using MATLAB.	120minutes
13.	Section 9: design of FIR filter	[Preparation] Read corresponding section of the textbook.	60minutes
13.	Section 9: design of FIR filter	[Brush up] Numerical calculation by using MATLAB.	120minutes
14.	Summary 2 and Examination 2	[Brush up] Review Section 5 to 9 before examination.	300minutes
Total.	-	-	2760minutes

Feedback on exams, assignments, etc.

ways of feedback	specific contents about "Other"
Feedback in the class

Textbooks and reference materials

［教科書］MATLAB対応ディジタル信号処理第2版，樋口龍雄（監修），川又政征・阿部正英・八巻俊輔（著），森北出版（ISBN：978-4-627-79212-8）

Prerequisites

Review Fourier series theory. Try to start to use MATLAB software before starting the lecture.

Office hours and How to contact professors for questions

During or after each class at classroom. E-mail can be used to ask questions..
Office hour: 12:30-13:20 on every Friday at Room 09B25 in Toyosu Campus. Contact me before coming to office

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 applicable
Applicable	Experiences of collaboration research with companies

Education related SDGs:the Sustainable Development Goals

9.INDUSTRY, INNOVATION AND INFRASTRUCTURE

Last modified : Sat Mar 08 04:30:24 JST 2025