EE 421G Signals and Systems

Fall 2007

 


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Tentative Schedule

Date

Lecture

8/22

Overview of signal and system

8/24

Intro to Continuous-Time Signal (1)

8/27

Intro to Continuous-Time Signal (2)

8/29

CT Impulse and intro to Discrete-Time Signal

8/31

CT sinusoidal signal

9/5

Sum of weighted sinusoids

9/7

DT sinusoidal signal (1)

9/10

DT sinusoidal signal (2)

9/12

Nyquist Sampling; System Properties

9/14

System Properties Continued

9/17

Discrete-Time System

9/19

Discrete-Time Convolution

9/21

Difference Equation (1)

9/24

Difference Equation (2)

9/26

Introduction to Matlab +  Review

9/28

Midterm 1

10/1

CT convolution and Differential Equation

10/3

(Guest lecture)

10/5

(Guest lecture)

10/8

Overview of Fourier Representations

10/10

Orthonormal basis interpretation of Fourier series

10/12

Fourier series

10/15

Introduction to Fourier Transform

10/17

Fourier Transform Properties

10/19

Fourier Transform Properties 2

10/22

Fourier Transform Properties 3

10/24

Fourier Transform Properties 4

10/26

Introduction to Fourier Representations of DT Signals

10/29

Discrete Time Fourier Transform

10/31

Midterm 2

11/2

Discrete Time Fourier Transform 2

11/5

Nyquist Theorem and practical D/A, Inverse DTFT, DFT

11/7

Motivations of Laplace and Z-transforms

11/9

ROC of Laplace Transform

11/12

Laplace Transform of LTI System

11/14

Complex Impedance and Inverse Laplace Transform

11/16

11/19

Effects of poles on time signals

11/26

Fourier Transform from Laplace Transform

11/28

Stability and Routh Test

11/30

Midterm 3

12/3

Z-transform

12/5

Z-transform properties

12/7

Difference Equation, Inverse Z-transform, Jury test

12/10

Final Examination

 


Sen-ching Samson Cheung

Last modified: 03/30/2006