Digital Signal Processing

Course title

F0034000

Course description

The real-time proceedings and the algorithms have become more and more important. A digital filter is an important technique to raise frequency resolving accuracy. The base of digital signal processing is lectured.

Purpose of class

The technical elements are commented on to understand that digital signal proceedings are introduced to the many fields.
This aim is acquire of sampling theorem, some transform operations, filter processing, impulse response, frequency characteristic, FFT and correlation.

Goals and objectives

Students will be able to explain and operate z-transform
They will be able to explain and operate frequency analysis
They will be able to explain digital filter
They will be able to explain correlation processing

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

	midterm examination	term examination(	report	Total.
1.	15%	5%	14%	34%
2.	10%	0%	12%	22%
3.	0%	10%	12%	22%
4.	0%	10%	12%	22%
Total.	25%	25%	50%	-

Evaluation method and criteria

The grade is judged by the midterm examination(25%), the term examination(25%), and small tests given in every lecture (50%).
The passing standard is over 60%.
The minimum score can be obtained if the student can explain the main terms in the textbook and has reached 80% understanding of exercises and quizzes in the lecture.

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Overview of the digital signal processing Signal and property Z transform - Z transform and Laplace transform - Characteristics	Preparation of chapter 2 and 3 of the textbook Preparation of chapter 4 of the textbook	190minutes
2.	Z transform - Z transform and inverse transform - Impulse response and FIR filter - Practice	Preparation of chapter 4 and 6 of the textbook	190minutes
3.	Discrete Fourier transform - Property, elucidation, problems Discrete time system - Sampling theorem - Impulse response and frequency response function	Preparation of chapter 5 of the textbook	190minutes
4.	Discrete-time systems - Impulse response - Convolutional integration - Digital filters	Preparation of chapter 6.1 - 6.6 of the textbook	190minutes
5.	Frequency and phase characteristic - Frequency characteristic - Phase characteristic - Pole and zero - Stability	Preparation of chapter 3.5, 6.8, 6.9 of the textbook	190minutes
6.	Fast Furrier transform - Method of split calculation - Characteristics of window function	Preparation of chapter 7 of the textbook	190minutes
7.	Examination Explanation	Preparation of lecture	190minutes
8.	Filter - Summary - An analog filter and comparison - Design Design of digital filter (3) - Design of FIR filter - Window method	Preparation of chapter 10 of the textbook	190minutes
9.	Design of digital filter (1) - IIR filter design - Bilinear transform	Preparation of chapter 9 of the textbook	190minutes
10.	Design of digital filter (2) - FIR filter design - Window method	Preparation of chapter 10 of the textbook	190minutes
11.	Correlation function (1) - An autocorrelation function and cross-correlation function - Modeling and the coefficient decision method	Preparation of chapter 11 of the textbook	190minutes
12.	Correlation function (2) - An autocorrelation coefficient and cross-correlation coefficient - Power spectrum and cross spectrum	Preparation of chapter 11 of the textbook	190minutes
13.	Adaptive signal processing - Steepest descent method - LMS algorithm - Normalized LMS algrothim	Preparation of chapter 12 of the textbook	190minutes
14.	Examination Explanation	Preparation of lecture	190minutes
Total.	-	-	2660minutes

Feedback on exams, assignments, etc.

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

Textbooks and reference materials

Textbook: Masahumi Ogiwara, Digital signal processing, Morikita Print.
Study aid: Ken'ichi Kido, Introduction of digital signal processing, Tohoku university print.

Prerequisites

Mathematics of information and communication 1, Transient Phenomena in Circuits or Laplace Transform

Office hours and How to contact professors for questions

After lecture

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Course that cultivates an ability for utilizing knowledge

Active-learning course

N/A

Course by professor with work experience

Work experience	Work experience and relevance to the course content if applicable
Applicable	Drawing on his experience in the research and development of wireless LAN systems, he will teach the elemental technologies of digital signal processing and their applications.

Education related SDGs:the Sustainable Development Goals

9.INDUSTRY, INNOVATION AND INFRASTRUCTURE

Last modified : Sat Mar 08 04:24:59 JST 2025