UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN
Department of Electrical and Computer Engineering
ECE 310: Digital Signal Processing (Fall 2024)
Course Description:
Introduction to discrete-time systems and discrete-time signal processing with an emphasis on causal systems; discrete-time linear systems, difference equations, z-transforms, discrete convolution, stability, discrete-time Fourier transforms, analog-to-digital and digital-to-analog conversion, digital filter design, discrete Fourier transforms, fast Fourier transforms, spectral analysis, and applications of digital signal processing.
Course Prerequisite:
ECE 210
I. Teaching Staff
1. Instructors:
| Prof. Minh Do (Sec. G) | Prof. Ilan Shomorony (Sec. CCS) | Prof. Corey Snyder (Sec. E) |
| Office: 113 CSL | Office: 313 CSL | Office: ECEB 2058 |
| Email: minhdo@illinois.edu | Email: ilans@illinois.edu | Email: cesnyde2@illinois.edu |
2. Teaching Assistants:
| (Head TA) Shilan He | Jackson Craig | Mick Gardner | Yulun (Ben) Wu |
| Email: shilanh2@illinois.edu | Email: jc168@illinois.edu | Email: mickhg2@illinois.edu | Email: yulun4@illinois.edu |
II. Schedule
1. Lectures:
| Lecture | Time | Day | Location |
|---|---|---|---|
| Section G | 9:00 a.m. - 9:50 a.m. | M W F | ECEB 3017 |
| Section CCS | 12:00 p.m. - 12:50 p.m. | M W F | ECEB 3017 |
| Section E | 3:00 pm. - 3:50 p.m. | M W F | ECEB 1013 |
2. Office Hours and Recitation Sessions:
Note: Start from 9/3
| Time | Monday | Tuesday | Wednesday | Thursday | Friday |
|---|---|---|---|---|---|
| 9-10 a.m. | |||||
| 10-11 a.m. | Prof. Ilan Shomorony (CSL 313) |
Shilan He (ECEB 3003) |
Mick Gardner (ECEB 3036) |
Mick Gardner (ECEB 5034) |
|
| 11 a.m.-12 p.m. | Prof. Minh Do (CSL 113) |
Shilan He (ECEB 3003) |
Mick Gardner (ECEB 3036) |
Mick Gardner (ECEB 5034) |
|
| 12-1 p.m. | |||||
| 1-2 p.m. | Jackson Craig (ECEB 5034) |
||||
| 2-3 p.m. | Prof. Corey Snyder (ECEB 5034) |
Jackson Craig (ECEB 5034) |
|||
| 3-4 p.m. | |||||
| 4-5 p.m. | Yulun (Ben) Wu (ECEB 5034) |
Yulun (Ben) Wu (ECEB 5034) |
|||
| 5-6 p.m. | Yulun (Ben) Wu (ECEB 5034) |
Yulun (Ben) Wu (ECEB 5034) |
Shilan He (ECEB 5034) |
||
| 6-7 p.m. | Recitation ECEB 2015 |
Shilan He (ECEB 5034) |
III. Resources
1. Recommended Textbook:
- Applied Digital Signal Processing: Theory and Practice (1st ed.) by Dimitris G. Manolakis and Vinay K. Ingle, Cambridge Univ. Press publisher ISBN: 978-052111020. Also available in digital format.
2. Course Campuswire:
- ECE 310 Campuswire link
- Access code: 2293
3. Associated Lab Course (Strongly recommended):
4. Additional Resources
The following additional resources cover much of the same material as the lectures and textbook. The syllabus below provides references to these resources as well as the Manolakis and Ingle textbook.
- SM: ECE 310 Course Notes by Prof. Andrew C. Singer and Prof. David C. Munson Jr. (PDF download)
- OS: Discrete-Time Signal Processing by Alan V. Oppenheim and Ronald W. Schafer (on reserve at the library)
- PM: Digital Signal Processing: Principles, Algorithms, and Applications by John G. Proakis and Dimitris G. Manolakis (on reserve at the library)
- FK: DSP lecture videos from ECE 410, Fall 2003, by Prof. Farzad Kamalabadi. These cover more advanced material than ECE 310.
- Recorded Examples: Recorded examples links (from fa2020)
- ECE 310 Notation Table: Chart of notation used in lecture, the textbook, and the other resources listed above
- ECE 310 Course Summary: A brief list of basic concepts.
- Common transform pairs and properties
- Summary of course learning objectives
Lecture recordings
The lecture recordings for section CCS can be found at this mediaspace channel. The corresponding lecture notes can be found at this Box folder.
Section G recordings can be found at mediaspace channel.
IV. Syllabus
| Time | Topics | Reading Assignment | Lecture Notes | Additional Resources | Assessment Due |
|---|---|---|---|---|---|
| Week 1: 8/26 - 8/30 |
Course introduction Continuous-time (CT) and discrete-time (DT) signals Review of complex numbers Discrete-time systems Linear and time-invariant (LTI) systems
|
Chapter 1: 1.1 - 1.4 Chapter 2: 2.1 - 2.3 |
Section E: Lec1, Lec2, Lec3 Section CCS: Lecture notes Section G: Lec1, Lec2, Lec3 |
SM: Ch 1, Appendix D, Appendix A, 3.1, 3.3-3.6 OS: 1, 2.1-2.2 PM: 1.1-1.2, 2.1-2.2 FK: 1, 5, 2, 9 Python Demo What is DSP? - Video by IEEE DSP at UIUC - 1 DSP at UIUC - 2 |
|
| Week 2: 9/2- 9/6 |
No class 9/2 (Labor Day) Impulse response Convolution Difference equations |
Chapter 2: 2.4 - 2.7; 2.10 | Section E: Lec4, Lec5 Section G: Lec4, Lec5 |
SM: 3.7-3.9 |
HW1 |
| Week 3: 9/9 - 9/13 |
z-transform Poles and zeros Inverse z-transform |
Chapter 3: 3.1 - 3.4 | Section E: Lec6, Lec7, Lec8 Section G: Lec6, Lec7, Lec8 |
SM: 4.1-4.5 OS: Ch 3 PM: 3.1-3.5 FK: 6, 7, 8 13 Partial Fractions Python Demo Some z-transform properties Some z-transform pairs Recitation Recitation Solutions |
HW2 |
| Week 4: 9/16 - 9/20 |
System analysis via z-transform System transfer function Stability |
Chapter 3: 3.5 - 3.7 | Section E: Lec9, Lec10, Lec11 Section G: Lec9, Lec10 |
SM: 4.10-4.14 OS: 5.2 PM: 3.6 FK: 14, 15, 16 Stability Python Demo Recitation Recitation Solutions |
HW3 |
| Week 5: 9/23 - 9/27 |
Applications of linear system models Sinusoidal signals Fourier transforms Discrete-time Fourier transform (DTFT) |
Chapter 4: 4.1 - 4.3 | SM: 2.1-2.4 OS: 2.6-2.7 PM: 1.3, 4.1 FK: 17 Inverse Filter Python Demo Applications of Linear System Theory |
HW4 |
|
| Week 6: 9/30 - 10/4 |
Midterm 1 (Wednesday, 10/2) No class Wednesday Properties of the DTFT |
Chapter 4: 4.3 - 4.5 Chapter 5: 5.1 - 5.2 |
SM: 2.4, 5.1 OS: 2.8-2.9, 5.1 PM: 4.2-4.4 FK: 18, 19 DTFT Python Demo Filtering Python Demo |
HW5 |
|
| Week 7: 10/7 - 10/11 |
Frequency response (magnitude and phase responses) Ideal filters Sampling of continuous-time signals |
Chapter 5: 5.3 - 5.6 Chapter 6: 6.1 |
SM: 5.2, 3.2 OS: 5.3-5.4, 4.1-4.2 PM: 4.4-4.5, 1.4 FK: 20, 21 |
HW6 |
|
| Week 8: 10/14 - 10/18 |
Ideal C/D and D/C conversion Aliasing effect Discrete Fourier transform (DFT) |
Chapter 6: 6.2 - 6.3 Chapter 7: 7.1 - 7.2 |
SM: 3.2, 2.5 OS: 4.2-4.3 PM: 1.4, 4.2.9, 5.1 FK: 22, 34 Sampling Demo |
HW7 |
|
| Week 9: 10/21 - 10/25 |
Discrete Fourier transform (DFT) DFT spectral analysis DFT applications |
Chapter 7: 7.2 - 7.4; 7.6 Chapter 6: 6.4-6.5 |
SM: 2.5-2.6 OS: 8.1-8.6, 10.1-10.2 PM: 5.2, 5.4 FK: 34, 36 DFT Python Demo |
HW8 |
|
| Week 10: 10/28 - 11/1 |
Fast Fourier transform (FFT) Convolution using the DFT Digital processing of analog signals |
Chapter 7: 7.5 Chapter 8: 8.1; 8.3 |
SM: Ch 14, 6.3 OS: 8.7, 9.3, 6.1-6.2 PM: 5.3, 6.1-6.2, 7.1 FK: 37, 38 |
HW9 |
|
| Week 11: 11/4 - 11/8 |
Midterm 2 (Wednesday, 11/6) No class Wednesday Practical digital filters |
Chapter 12: 12.1-12.2 | HW10 |
||
| Week 12: 11/11 - 11/15 |
Generalized linear phase filters FIR filter design by windowing |
Chapter 9: 9.1-9.3 Chapter 10: 10.1-10.3 Chapter 11: 11.1; 11.3 |
SM: 6.4, Ch 11, Ch 12 OS: 5.7, Ch 7 PM: Ch 8 FK: 28, 29, 30 |
HW11 |
|
| Week 13: 11/18 - 11/22 |
Downsampling and decimation Upsampling and interpolation Multirate signal processing |
Chapter 12: 12.1-12.2 |
|
HW12 |
|
| Fall break: 11/25 - 11/29 |
|||||
| Week 14: 12/2 - 12/6 |
Practical A/D, D/A, upsampling D/A, ZOH Applications: instructor's choice, student's choice |
Chapter 6: 6.5 Chapter 15: 15.3 |
HW13 |
||
| Week 15: 12/9 - 12/13 | Applications: instructor's choice, student's choice Final exam review |
|
|||
| Final Exams: 12/16- 12/20 |
V. Grading
- Weekly Homework: 25% of Final Grade, 15% written submission to Gradescope, 10% PrairieLearn
- Grading: Homework average is computed by dropping the two lowest scores for each the written and Prairielearn homeworks (2 for written, 2 for Prairielearn) and then computing the average; this implies that each student may omit two homeworks in case of extenuating circumstances. Since the solutions will be posted immediately after the submission deadline, no late submission will be accepted.
- Submission: Homework should be uploaded as a PDF file to Gradescope in which we have added each student enrolled. If you have not been auto-enrolled to our course Gradescope, you may join using entry code BK54YZ
- Due dates: Homework is assigned each Friday, due the following Friday at 11:59pm. The corresponding solution will be posted immediately after the due date.
- Write neatly. Please box the equations you will be solving and the final answer. If we cannot read it we cannot grade it!
- Regrade requests must be submitted on gradescope within one week of grades being posted. All regrade requests must have a brief justification.
- PrairieLearn: www.prairielearn.org (sign in with Illinois; first time, enroll in course ECE 310). There is PrairieLearn weekly homework that is due at the same time with written homework (Fridays at 11:59pm).
- Again, late homework submissions will not be accepted.
- Exams (will be held in-person): 75% of Final Grade
- Midterm Exam 1: 20% of Final Grade
- Date: Wednesday, 10/2, 7:00-9:00pm
- Location: CIF 0027/1025
- Coverage: material from weeks 1-4, through HW4.
- You are allowed 1 sheet (two-sided) of handwritten notes (no printed notes) on 8.5x11" paper. No calculator allowed.
- Conflict exam:
- TBA
- HKN Review Session:
- TBA
- Midterm Exam 2: 20% of Final Grade
- Date: Wednesday, 11/6, 7:00-9:00pm
- Location: CIF 0027/1025
- Coverage: materials corresponding to HWs 5-9.
- You are allowed 2 sheet (two-sided) of handwritten notes (no printed notes) on 8.5x11" paper. No calculator allowed.
- Conflict exam:
- TBA
- HKN Review Session:
- TBA
- Final Exam: 35% of Final Grade
- Date:
- TBA
- Location:
- TBA
- Coverage: material from the whole semester
- You are allowed 3 sheets (two-sided) of handwritten notes (no printed notes) on 8.5x11" paper. No calculator allowed.
- Conflict exam:
- TBA
- HKN Review Session:
- BA
- Date:
- Midterm Exam 1: 20% of Final Grade
- Final Grade Cutoffs: The following cutoffs will be used to assess final grades. The cutoffs will never be raised, but might be lowered based on the class distribution. We will communicate any changes clearly in class and here on the website.
- A+: 93-100%, A: 90-93%, A-: 87-90%
- B+: 83-87%, B: 80-83%, B-: 77-80%
- C+: 73-77%, C: 70-73%, C-: 67-70%
- D+: 63-67%, D: 60-63%, D-: 57-60%
VI. Integrity
This course will operate under the following honor code: All exams and homework assignments are to be worked out independently without any aid from any person or device. Copying of other students' work is considered cheating and will not be permitted. By enrolling in this course and submitting exams and homework assignments for grading, each student implicitly accepts this honor code.
VII. Homework Material
| Exercises | Due Date | Solution |
|---|---|---|
| Homework 1 | 09/06 @ 11:59pm | Homework 1 Solution |
| Homework 2 | 09/13 @ 11:59pm | Homework 2 Solution |
| Homework 3 | 09/20 @ 11:59pm | Homework 3 Solution |
| Homework 4 | 09/27 @ 11:59pm | Homework 4 Solution |
| Homework 5 | 10/04 @ 11:59pm | Homework 5 Solution |
| Homework 6 | 10/11 @ 11:59pm | Homework 6 Solution |
| Homework 7 | 10/18 @ 11:59pm | Homework 7 Solution |
| Homework 8 | 10/25 @ 11:59pm | Homework 8 Solution |
| Homework 9 | 11/01 @ 11:59pm | Homework 9 Solution |
| Homework 10 | 11/08 @ 11:59pm | Homework 10 Solution |
| Homework 11 | 11/15 @ 11:59pm | Homework 11 Solution |
| Homework 12 | 11/22 @ 11:59pm | Homework 12 Solution |
| Homework 13 | 12/06 @ 11:59pm | Homework 13 Solution |
VIII. Past Exams
| Exam | Exercise List |
|---|---|
| Midterm 1 | |
| Midterm 2 | |
| Final |