Room

CB 316

2:00pm-3:15pm

2:00pm-3:15pm

Month

Tuesday

Thursday

8=August

(28) Lecture 1: Course description, organization. Digital Signal Processing

9=September

(2)  Lecture 2: DT Signals and Systems

(4) Lecture 3:  LTI Systems, Intro to DTFT

9=September

(9)  Lecture 5:  Stochastic DSP

HW #1: 2.22 DT convolution, 2.30 DT type, 2.31 diff equ,  2.32 DT system

Problems of interest 2.1, 2.3, 2.18, 2.19, 2.27, 2.29, 2.32, 2.42

(11) Lecture 6: Z transform

9

(16)  NO CLASS

(18) Z-Transform and Inverse Z-Form using residue concept

HW #2: 2.42 LTI, 2.43 DTFT, 2.45 LTI, 2.89 LTI stochastics

9

(23) Lecture 8: Z transform inverse and Z-form properties

Project A: 1-D and 2-D DFT and ideal bandpass and notch filtering.

(25) Lecture 9: more Z-forms

9

(30) Lecture 10: Finish Z-form and start Sampling Theory

HW #3: 3.20 ROC, 3.23 inverse Z-form, 3.25 PFE, 3.31 Z-Form.

Problems of interest:   3.21, 3.22,3.23,3.24

(2)   Lecture 11: Sampling Theory.

Project B.

10=October

(7) Lecture 12: Up Down Sampling

HW #4: 3.34 inverse Z form, 3.40 Z-form System, 3.46 Z form Pole Zero placement, 3.51 Z form properties.

(9) Lecture 13: Quantization

Project C

10

(14) Practical Appication of Project Techniques

HW #5A: 4.21 FT and sampling, 4.24 FT and sampling, 4.25 Impulse sampling, 4.29 updown sampling.

(16) Lecture 15: Review for Test

Begin Chapter 5

HW #5B: 4.58 up down sampling, 4.62 sigma delta A/D

Visualization V5 (see web site)

10 Midterm

(21) Lecture 16:

EXAM I (1 crib sheet both sides, NO books, NO Notes, NO comm. devices). Will cover HW 1 through and including HW 5A.

(23) Lecture 17: Noise shaping.

10

(28) Lecture 18: Chapter 5 Transform Analysis of LTI Systems

HW #6: 5.4 pole zero, stable causal, 5.21 LTI, 5.27 LTI, 5.41 LTI type.

Problems of interest: 5.2, 5.4,5.21, 5.24,5.26, 5.27, 5.48

(30) NO CLASS Lecture 19: Filter Structure and Pole Zero placement.

11=November

(4) NO CLASS ELECTION DAY

(4) Lecture 20: IIR design

(6) Lecture 21: IIR design and FIR time and frequency sample design.

11

(11) Lecture 22:FIR window design

HW #7: 5.59 deconvolution, 6.1 pole locations, 6.34 structures, 6.40 round off error.

(13) NO CLASS

11

(18) Lecture 24: DFT

(20) Lecture 25: FFT

HW#8: 6.32, 6.33, 6.37,6.39.

Problems of interest: 6.32, 6.36 7.50

11

(25)  Lecture 26:

HW #9: 7.3 bilinear transform, 7.21 Filter design, 7.33 Hilbert Transform, 7.51 FIR equiripple.

Problems of interest: 7.1, 7.16,

(27) NO CLASS THANKSGIVING

12

(2)

Project D: DUE

 HW #10:8.5 DFT, 8.26 DFT, Classic DFT problem 8.37, DFT Parseval’s rule 8.57.

(4) EXAM 2 

12=December

Dead Week

(9)

HW #11: Covers DFT and FFT 9.21, 9.26, 9.35.

Problems of interest: 9.22, 9.28, 9.34.

(11) FINAL PROJECT “E” DUE

12. Finals

(16)

(18)