ELEN 444-Ji Tentative Class Schedule (08 S)

 

Read textbook sections according to the assignment given every Monday

Week

             Sections*

Topic

1-2

1.1

Overview of DSP

1.2

Basic signals and systems,

1.3

Frequency response and digital frequency

4.1

Fourier transform

4.3

Fourier Series

4.1, 4.2

Complex numbers and variables, Frequency analysis

3-4

4.4, 4.5

Properties of Fourier analysis

1.4.1, 1.4.2

Sampling theorem

4.2.9

Sampling theorem (cont.)

2.3

Linearity, shift-invariance, stability and causality

2.2, 2.4

Difference equation description

2.4

Solution to difference equation

5-6

2.3

Convolution and unit-pulse response

3.1, 3.5

1-side z-transfrom

3.2, 3.4.3

Region of convergence (ROC) and inverse z-transform

7

3.1

2-sided z-transform

3.4

Inverting 2-sided z-transform

3.3

Convolution via 2-sided z-transform

8

3.3

Poles and zeros

4.2.3

Discrete-time Fourier transform (DTFT)

4.3

Properties of DTFT

9

4.4.1, 4.4.5

Analog frequency response of LTI system

5.1

Discrete Fourier transform (DFT)

4.26, 5.2

Relationship between various transforms

 

 

 

Week

             Sections*

Topic

10

 

 

6.1

FFT

6.2

FFT

11

7.1, 7.2, 7.3

Filter structures

4.5, 8.1

Filter theory and specification

8.1, 8.2.1

Generalized linear phase and FIR filter coefficient symmetry

12

8.2.1

Generalized linear phase and FIR filter coefficient symmetry

8.2.2

Window design of FIR filters

8.2.4

Equiripple FIR design

13-14

8.3

Design IIR filters from analog filters

8.3.2

Impulse invariance design

 

8.3.3, 8.3.6

Bilinear transformation (BLT) IIR filter design; Frequency transformation

1.4, 9.2, 9.3

A/D, D/A and hardware implementation

 

Applications of DSP

Last class

 

Project presentation

 

 

*  Read corresponding chapters in textbook before class