강의계획서
강의계획서>ELEC461002


교과목명 Digital Signal Analysis 교과목코드 ELEC461001 학점 3.0
개설대학 전자공학부 A 개설학기 2014.1
담당교수 하영호
연구실 및 E-mail IT-1호관605,yha@ee.knu.ac.kr 연락처 950-5535
강의시간 월1A1B2A
금1A1B2A
강의실명 IT대학1호관(공대10호관)103 면담시간 월 18:00 ~ 19:00

Course Goals and Objectives

 

The objective of this course is to understand the fundamentals, implementation and applications of digital signal analysis. Especially, DSP techniques and concepts could be obtained from practical examples.

Textbook and other references

 

[Text book]
하영호, 디지털 신호처리, 도서출판 그린, 2009.
E. C. Ifeachor, B. W. Jervis, Digital Signal Processing - A Practical Approach(Second Edition), Prentice-Hall, 2002.
[Reference]
J. G. Proakis, D. G. Manolakis, Digital Signal Processing Principles, Algorithms, Applications, Prentice-Hall, 1996.


Course Description, Methods, and Materials

 

Using PPT slides

Assignments and Grading Criteria

 

Midterm exam(30%), Final exam(30%), and Temporary exam(30%)



Notice To Students

 

Homework and class activity(10%)- homework: solving the problems for each chapter


Notice To Students with Disabilities

 

Hearing Impaired : first row priority seating, Class transcripts may also be provided.



no Course Goals and Objectives Assignment Text & Materials Etc.
1 Continuous-time signals and transform - Fourier series - Fourier transform - Laplace transform
2 Continuous-time signals and transform - Transfer function - Convolution - Pole and zero - Butterworth filter and Chebychev filter
3 Sampling of continuous-time signals - Sampling Theorem - Reconstruction of the continuous time signal - A/D conversion - Quantization
4 Discrete time signal and transform - Discrete time signal - Discrete Fourier transform - Truncation and leakage
5 Discrete time signal and transform - Discrete convolution - Fast Fourier Transform
6 Z-transform - Z-transform - Z-transform and Laplace Transform
7 Z-transform - Inverse Z-transform - Feature of Z-transform
8 Midterm exam
9 Discrete time system - Difference equation - Linear time invariant system
10 Discrete time system - Frequency response - System realization
11 Finite impulse response filter design - Feature of FIR filter and zero distribution of FIR filters - FIR filter design
12 Finite impulse response filter design - Window method - The optimal method - Frequency sampling method
13 Design of infinite impulse response digital filter - IIR filter
14 Design of infinite impulse response digital filter - Design of IIR filter using analog filter - Frequency transformation
15 Final exam

Cheating, plagiarism, and other dishonest practices will be punished as harshly as Kyungpook National University policies allow. The University specifies that cheating is grounds for dismissal. Penalties less severe may be imposed instead. A list of possible disciplinary actions is given below. Actions by the university:

- Failure in course

- Suspension from university for a designated period

- Expulsion from university