Last Updated: May 21, 2006 09:26 PM                                                                                                                                                           Home 

EE 7372: Topics in Digital Signal Processing                                            

Note: Most of the links on this page were removed after the Spring 2006 semester ended.
 
Syllabus                                                                                                                                                                                                 
 
Homework
 
Lectures
 
Session Date Book Chapters/Sections      Topics Covered       Resources
1 Jan 18, 2006 None (No class)
  • None (No class)
  
2 Jan 23, 2006 Chapter 1
  • Introduction to signals and systems
  • Nyquist's Theorem
  • Definitions of analog, discrete-time and digital signals
3 Jan 25, 2006 Chapter 2.1
  • Some basic discrete-time signals, energy and power signals
  • MATLAB demo
4 Jan 30, 2006 Chapter 2.1-2.2
  • Various classifications of DT signals
  • Various manipulations of DT signals
  • Basic DT systems
5 Feb 1, 2006 Chapter 2.2-2.4
  • Classification of discrete-time systems
  • Convolution
6 Feb 6, 2006 Chapter 2.4-2.6
  • Discrete-time systems described by difference eqns.
  • LTI systems characterized by LCCDE
  • Direct form 1 and 2 implementation
  • Recursive and non-recursive realizations of FIR systems
7 Feb 8, 2006 Chapter 2.6, 3.1-3.2
  • Correlation and properties
  • Z transform
8 Feb 13, 2006 Chapter 3.2-3.4
  • Properties of z transform
  • Inverse z transform
9 Feb 15, 2006 Chapter 3.4, 3.6, 4.2.3, 4.3-4.4
  • Inverse z transform using partial fraction expansion
  • Analysis of LTI systems in the z domain
  • DTFT and IDTFT
  • Complex exponentials as eigenfunctions of LTI systems
  • Properties of DTFT
Make-up for session 1 Feb 16, 2006 Chapter 4.5, 5.1-5.2
  • LTI systems as frequency selective filters
  • Design of LTI filters using pole-zero placement
  • DFT
  • Circular convolution
  • Properties of DFT
10 Feb 20, 2006 Chapter 5.2-5.3, 1.4
  • Circular convolution vs. linear convolution
  • Linear filtering based upon DFT
  • Aliasing
11 Feb 22, 2006 Chapter 1.4, 7.1-7.2, 7.6
  • D/A conversion and ideal interpolator
  • Implementation of digital filters
  • Quantization of filter coefficients
12 Feb 27, 2006 N/A
  • Review session
13 Mar 01, 2006 Midterm 1
14 Mar 06, 2006

Chapter 8.1
  • Digital filter design problem
  • Ideal filters and Paley-Weiner theorem
15 Mar 08, 2006

Chapter 8.2.1-8.2.2, 8.2.4
  • Symmetric and anti-symmetric FIR filters
  • FIR filter design using windows
  • Optimum equi-ripple linear phase FIR filters
16 Mar 20, 2006

Chapter 8.3.2-8.3.3
  • IIR filter design by impulse invariance
  • IIR filter design using bilinear transform
17 Mar 22, 2006

N/A
  • Review of matrix and vectors
  • Review of random variables
  • Introduction to Discrete Orthogonal Transforms
18 Mar 27, 2006

N/A
  • Basis vectors
  • Properties of Orthogonal Transforms
  • Discrete Walsh Hadamard Transform
19 Mar 29, 2006

N/A
  • Midterm 1solved in class
20 Apr 3, 2006

N/A
  • Haar transform
  • Review of eigenvalues and eigenvectors
  • KL Transform
21 Apr 5, 2006

Chapter 10.1-10.3
  • Multirate signal processing
  • Decimation
  • Interpolation
22 Apr 10, 2006

Chapter 10.4,12.1
  • Sampling rate conversion by a rational factor
  • Power Spectrum Estimation
23 Apr 12, 2006 None (No class)
  • None (No class)
  
24 (Pretaped) Apr 17, 2006 N/A
  • Review session
25 Apr 19, 2006 Midterm 2
26 Apr 24, 2006 Chapter 12.1
  • Non-parametric power density spectrum estimation
  • Periodogram
27 Apr 26, 2006 Chapter 12.3
  • Parametric power density spectrum estimation
  • Solution to Yule-Walker equations
28 May 01, 2006 N/A
  • Review session