EE577: Advanced Digital Signal Processing
Topics and Notes Summary (updated 5/10/2007):
| Thursday, May 10 | Course grades have been posted to the My Info system. Have a great summer!!
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| Friday, May 4 | Last day of class: course wrap-up and miscellaneous topics.
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| Wednesday, May 2 | Guest presentation by classmate Dustin Dunkle on Kalman filters for tracking.
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| Monday, Apr. 30 | 2-D DSP: discrete space Fourier transform, and 2-D DFT.
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| Friday, Apr. 27 | 2-D DSP continued.
Term project reports due at the start of class.
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| Wednesday, Apr. 25 | 2-D signal processing: terminology and characteristics.
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| Monday, Apr. 23 | Discuss midterm exam results. Complete discussion of adaptive signal processing.
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| Friday, Apr. 20 | Midterm Exam #2, in class (coverage through 4/4/2007).
Open book and notes--but no consultants!
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| Wednesday, Apr. 18 | Exam discussion and brief review.
Continue discussion of adaptive signal processing. |
| Monday, Apr. 16 | No class this day (Maher out of town)
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| Friday, Apr. 13 | Guest Lecture: Dr. Yikun Huang
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| Wednesday, Apr. 11 | Guest Lecture: Dr. Kevin Repasky
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| Monday, Apr. 9 | Homework #3 due; term project proposals due.
Start discussion of adaptive signal processing.
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| Friday, Apr. 6 | No class this day(University Day holiday)
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| Wednesday, Apr. 4 | STFT and related analysis techniques (McAulay-Quatieri procedure, etc.)
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| Monday, Apr. 2 | STFT (cont.)
NOTE: the midterm exam #2 is scheduled for Friday, April 20, 2007 (in class). More details to follow. |
| Friday, Mar. 30 | Spectral analysis using the short-time Fourier transform
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| Wednesday, Mar. 28 | DCT cont.; filter design example using Matlab (related to HW #3)
ASSIGNMENT: Homework #3. Due Monday 9 April (no class on April 6). ASSIGNMENT: Term project assignment: due Friday 27 April 2007. |
| Monday, Mar. 26 | DFT and FFT algorithms; Discrete cosine transform (DCT) framework
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| Friday, Mar. 23 | DFT (cont.); overlap add and overlap save processing for LTI systems
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| Wednesday, Mar. 21 | DFT formulation and characteristics; relations to DTFT and DFS
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| Monday, Mar. 19 | Midterm exam #1 returned and discussed in class.
Introduction to the DFT (Chapter 8) |
| Mar. 12-16 Spring Break (M-F) |
No MSU classes this week.
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| Friday, Mar. 9 | Midterm Exam #1, in class (coverage through 3/5/2007).
Open book and notes--but no consultants!
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| Wednesday, Mar. 7 | Exam discussion and brief review. Pole-zero pairing to minimize overflow risk, etc.
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| Monday, Mar. 5 | Overflow issues in digital filters
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| Friday, Mar. 2 | Roundoff and truncation; basic filter topologies; direct and transposed forms (cont.)
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| Wednesday, Feb. 28 | Roundoff and truncation; basic filter topologies; direct and transposed forms.
HW#2 due at the start of class. REMINDER: Exam #1 will be held in class on Friday, March 9, 2007. More details will follow next week.
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| Monday, Feb. 26 | Complete Chapter 5, begin Chapter 6 material on discrete-time systems.
ASSIGNMENT: Read Chapter 6. |
| Friday, Feb. 23 | Graphical interpretation of system magnitude and phase using pole-zero positions.
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| Wednesday, Feb. 21 | Transform interpretation of LTI systems (Chapter 5)
ASSIGNMENT: Read Chapter 5. ASSIGNMENT: Homework #2: problems 4.27 and 4.52 |
| Monday, Feb. 19 | No class this day (Presidents' Day Holiday)
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| Friday, Feb. 16 | Finish consideration of noise shaping in digital signal processing systems (A/D and resampling operations). |
| Wednesday, Feb. 14 | Sampling and oversampling; noise shaping.
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| Monday, Feb. 12 | Quantization and SQNR calculations.
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| Friday, Feb. 9 | Homework #1 is due at the START of class. Amplitude quantization and quantization "noise" models. |
| Wednesday, Feb. 7 | Upsampling and downsampling by a non-integer factor using an up/down cascade. Multirate issues for increased efficiency; polyphase filter structure considerations. |
| Monday, Feb. 5 | Sample rate conversion: downsampling and upsampling by an integer factor; effect on signal spectrum; avoiding aliasing when downsampling. |
| Friday, Feb. 2 | Continue discussion of sampling: relationship between Fourier transform of continuous
signal, sampled signal, and the discrete-time Fourier transform.
Start material on sample rate conversion: downsampling by an integer factor.
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| Wednesday, Jan. 31 | Inverse z-transforms; Start sampling discussion (Ch. 4)
ASSIGNMENT: Read Chapter 4. ASSIGNMENT: Homework #1: problems 2.18, 2.32, 2.35; and 3.35. |
| Monday, Jan. 29 | Cover Chapter 3 material: z-transforms. Concentrate on understanding the Region
of Convergence (ROC) properties and review the partial fractions method for inverse
transforms by inspection. ASSIGNMENT: Read Chapter 3. |
| Friday, Jan. 26 | Complete discussion of Ch. 2. |
| Wednesday, Jan. 24 | Continuing discussion of material from Chapter 2, up through section 2.4. |
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Monday, Jan. 22 |
Chapter 2 of the textbook: discrete-time signals, notation, and terminology. |
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Friday, Jan. 19 |
INSTRUCTOR OUT OF TOWN: no class meeting this day. ASSIGNMENT: Read chapter 2, sections 2.0-2.9. |