Latest revision as of 03:50, 31 August 2013

ECE 438: Digital Signal Processing with Applications

Professor Boutin, Fall 2011

Message area: Bonus point opportunity

Yes, I will be holding my regular office hour (2-3pm) today. -pm

You will receive 0.5% bonus on your total course grade if you do the following:

Fill out the official course evaluation online.
Write a comment for the peer legacy section of Engineering 131 and 132. (It's ok if you took it when it had a different number: just write that number as part of your review/comment/advice.
Write a comment for the peer legacy of at least one other course here.
Send me an email indicating that you have done all this.

Course Information

Instructor: Prof. Mimi
- Office: MSEE 342
- Office hours are listed here.
Teaching Assistant: Rui Zhao
- Email: zhao148@purdue.edu
- Office: MSEE 190
- Office Hours: M 10:30am-11:30am, W 10:00am-11:00am, R 1:30pm-2:30pm
Teaching Assistant: Trey Shenk
- Email: trey.shenk at gmail dot com
- Office: MSEE 190
- Office Hours: F 11:40am - 1:30pm
Schedule
Course Syllabus
Important Dates:
- Test 1, Friday October 7, 2010.
- Test 2, Friday December 2, 2010.
- Final, TBA

Getting ready for the Exams

Past Exams From Spring 2009 (Note: slightly different ordering of the material)
- midterm1
- midterm2 Note: in question one, x[n] should be $$ 3^n $$ for negative n's.
- midterm3
- final

Past Exams From Fall 2009
- midterm1
- midterm2
- final

Practice Problems

Lab Wiki

Here.

Resources

A beginner’s guide to LaTeX (Chapter 1). By Krithika Chandrasekar.
NEW! A beginner’s guide to LaTeX (Chapter 2). By Krithika Chandrasekar.
Rhea's Collective Table of Formulas. Add your formulas now!
Cheat Sheet for Rhea Math
zpgui3.m A MATLAB GUI showing the effect of poles and zeros during filter design.

Lecture Blog

Lecture 1, 2, 3 ,4 ,5 ,6 ,7 ,8 ,9 ,10 ,11 ,12 ,13 ,14 ,15 ,16 ,17 ,18 ,19 ,20 ,21 ,22 ,23 ,24 ,25 ,26 ,27 ,28 ,29 ,30 ,31 ,32 ,33 ,34 ,35 ,36 ,37 ,38 ,39 ,40 ,41 ,42 ,43 ,44, final exam .

Collectively Solved Practice Problems

Learn how to use Rhea
- Practice writing equations on Rhea

Basic material and review
- What is the norm of a complex exponential?

Summation exercises

CTFT exercises

DTFT exercise
- What is the Fourier transform of this DT cosine?
- What is the Fourier transform of this DT rect function?

Sampling and Nyquist Rate
- Playing an A 440 with MATLAB
- What kind of signals are band limited?

Z-transform and inverse z-transform
- Prove the scaling property of the z-transform
- compute the z-transform of this function

DFT

Spectral Analysis of continuous-space (2D) signals

Spectral Analysis of discrete-space (2D) signals

Homework

HW1 due Wednesday August 31, 2011. Solution
HW2 due Wednesday September 6, 2011. Example Solution
HW3 due Wednesday September 28, 2011 (extended to Sept 30). Solution
HW4 due Wednesday October 5, 2011. Solution
HW5 due Wednesday October 19, 2011. Solution
HW6 due Wednesday October 26, 2011. Solution
HW7 due Wednesday November 9, 2011.
HW8 due Wednesday November 30, 2011. Solution

Your turn! A bonus point opportunity

Students in ECE438 Fall 2011 have the opportunity to earn up to a 3% bonus by contributing a Rhea page on a subject related to digital signal processing. To pick a subject, simply write your name next to it. Your page will be graded based on content as well as interactions with other people (page views, comments/questions on the page, etc.). The number of links to other courses and subjects will also be taken into account: the more the merrier! Please do not simply copy the lecture notes and do not plagiarize. Read Rhea's copyright policy before proceeding.

Topic Number	Topic Description	Student Name
1	Something related to CT or DT Fourier transform	Name
2	Something related to Z-transform	Name
3	Upsampling and downsampling lab	Jun Zhang, Tianhe Liu
4	Something related to discrete Fourier transform	Name
5	Something related to Fast Fourier transform]]	Name
6	Something related to Filtering	Name
7	Something related to Speech analysis or processing	Name
8	Something related to Spectral Analysis of 2D signals]]	Name
9	Similarity analysis of images	Yang Zhu
10	Something related to Quantization	Name
11	Audio Signal Processing with Down-sampler and LPF	Bo Yuan, Wei Wang
12	Audio Signal Generating and Processing Project	Yimin Xiao
12	Student blog	Name (s)

Back to ECE438

Back to Semester/Instructor Specific Course Wikis

@@ Line 1: / Line 1: @@
+[[Category:ECE438Fall2011Boutin]]
+[[Category:ECE438]]
+[[Category:ECE]]
+[[Category:signal processing]]
 = [[ECE438|ECE 438]]: Digital Signal Processing with Applications  =
@@ Line 4: / Line 9: @@
 ----
-<div style="background: none repeat scroll 0% 0% rgb(238, 238, 255); border-width: 1px 1px 1px 4px; border-style: solid; border-color: rgb(68, 68, 136) rgb(68, 68, 136) rgb(68, 68, 136) rgb(51, 51, 136); width: 30em; padding: 2em; margin: auto; text-align: center;">
+<div style="background: none repeat scroll 0% 0% rgb(238, 238, 255); border-width: 1px 1px 1px 4px; border-style: solid; border-color: rgb(68, 68, 136) rgb(68, 68, 136) rgb(68, 68, 136) rgb(51, 51, 136); width: 30em; padding: 2em; margin: auto; ">
 Message area:
+Bonus point opportunity
-*An idea to get the bonus 3%: make a video explaining how to post equations on Rhea using latex code. (Easiest is to post it on youtube and link to the youtube video from a Rhea page.)
+Yes, I will be holding my regular office hour (2-3pm) today. -pm
-*If you want to be notified when a new homework is posted, become your instructor's [http://www.facebook.com/profile.php?id=100000400964096&ref=name friends on facebook].
-*An idea to get the bonus 3%: run collective problem solving pages for [[ECE301]] or some other [[ECE]] course. If you can get some students from these courses to actively participate, you could get the full 3%!
+You will receive 0.5% bonus on your total course grade if you do the following:
+*Fill out the official course evaluation online.
+*Write a comment for the peer legacy section of [[Peer_Legacy_ENGR131|Engineering 131 and 132]]. (It's ok if you took it when it had a different number: just write that number as part of your review/comment/advice.
+*Write a comment for the peer legacy of at least one other course [[Peer_legacy|here]].
+*Send me an email indicating that you have done all this.
 </div>
 ----
@@ Line 36: / Line 43: @@
 **Final, TBA
+----
+== Getting ready for the Exams ==
+*Past Exams From Spring 2009 (Note: slightly different ordering of the material)
+**[http://cobweb.ecn.purdue.edu/~mboutin/PastExams/438S09midterm1.pdf midterm1]
+**[http://cobweb.ecn.purdue.edu/~mboutin/PastExams/438S09midterm2.pdf midterm2] Note: in question one, x[n] should be <math> 3^n</math> for negative n's.
+**[http://cobweb.ecn.purdue.edu/~mboutin/PastExams/438S09midterm3.pdf midterm3]
+**[http://cobweb.ecn.purdue.edu/~mboutin/PastExams/438S09final.pdf final]
+*Past Exams From Fall 2009
+**[http://cobweb.ecn.purdue.edu/~mboutin/PastExams/438F09midterm1.pdf midterm1]
+**[http://cobweb.ecn.purdue.edu/~mboutin/PastExams/438F09midterm2.pdf midterm2]
+**[http://cobweb.ecn.purdue.edu/~mboutin/PastExams/438F09final.pdf final]
+*Practice Problems
+**[[Practice_question_1_eECE439F10|Practice Question 1 (on DFT computation)]]
+**[[Practice_Question_2_ECE439F10|Practice Question 2 (on z-transform computation)]]
+**[[Practice_Question_3_ECE439F10|Practice Question 3 (on inverse z-transform computation)]]
+**[[Practice_Question_4_ECE438F10|Practice Question 4 (frequency domain view of sampling)]]
+**[[Practice_Question_5_ECE438F10|Practice Question 5 (filter design)]]
 ----
@@ Line 46: / Line 73: @@
 == Resources  ==
-*<span style="color: red;"> NEW!</span> [https://www.projectrhea.org/rhea/images/8/8d/Latex_1.pdf A beginner’s guide to LaTeX (Chapter 1)]. By&nbsp;Krithika Chandrasekar.
+*[https://www.projectrhea.org/rhea/images/8/8d/Latex_1.pdf A beginner’s guide to LaTeX (Chapter 1)]. By&nbsp;Krithika Chandrasekar.
+*<span style="color: red;"> NEW!</span> [https://projectrhea.org/liaisons/images/c/c7/Latex_2.pdf A beginner’s guide to LaTeX (Chapter 2)]. By&nbsp;Krithika Chandrasekar.
 *[[Collective Table of Formulas|Rhea's Collective Table of Formulas]]. Add your formulas now!
 *[[How to Enter Math in Rhea|Cheat Sheet for Rhea Math]]
+*[https://www.projectrhea.org/rhea/images/9/91/Zpgui3.m.zip zpgui3.m] A MATLAB GUI showing the effect of poles and zeros during filter design.
 ----
@@ Line 54: / Line 83: @@
 == Lecture Blog  ==
-[[Lecture1ECE438F11|Lecture 1]], [[Lecture2ECE438F11|2]], [[Lecture3ECE438F11|3]] ,[[Lecture4ECE438F11|4]] ,[[Lecture5ECE438F11|5]] ,[[Lecture6ECE438F11|6]] ,[[Lecture7ECE438F11|7]] ,[[Lecture8ECE438F11|8]] ,[[Lecture9ECE438F11|9]] ,[[Lecture10ECE438F11|10]] ,[[Lecture11ECE438F11|11]] ,[[Lecture12ECE438F11|12]] ,[[Lecture13ECE438F11|13]] ,[[Lecture14ECE438F11|14]] ,[[Lecture15ECE438F11|15]] ,[[Lecture16ECE438F11|16]] ,[[Lecture17ECE438F11|17]] ,[[Lecture18ECE438F11|18]] ,[[Lecture19ECE438F11|19]] ,[[Lecture20ECE438F11|20]] ,[[Lecture21ECE438F11|21]] ,[[Lecture22ECE438F11|22]] ,[[Lecture23ECE438F11|23]] ,[[Lecture24ECE438F11|24]] ,[[Lecture25ECE438F11|25]] ,[[Lecture26ECE438F11|26]] ,[[Lecture27ECE438F11|27]] ,[[Lecture28ECE438F11|28]] ,[[Lecture29ECE438F11|29]] ,[[Lecture30ECE438F11|30]] ,[[Lecture31ECE438F11|31]] ,[[Lecture32ECE438F11|32]] ,[[Lecture33ECE438F11|33]] ,[[Lecture34ECE438F11|34]] ,[[Lecture35ECE438F11|35]] ,[[Lecture36ECE438F11|36]] ,[[Lecture37ECE438F11|37]] ,[[Lecture38ECE438F11|38]] ,[[Lecture39ECE438F11|39]] ,[[Lecture40ECE438F11|40]] ,[[Lecture41ECE438F11|41]] ,[[Lecture42ECE438F11|42]] ,[[Lecture43ECE438F11|43]] ,[[Lecture44ECE438F11|44]].
+[[Lecture1ECE438F11|Lecture 1]], [[Lecture2ECE438F11|2]], [[Lecture3ECE438F11|3]] ,[[Lecture4ECE438F11|4]] ,[[Lecture5ECE438F11|5]] ,[[Lecture6ECE438F11|6]] ,[[Lecture7ECE438F11|7]] ,[[Lecture8ECE438F11|8]] ,[[Lecture9ECE438F11|9]] ,[[Lecture10ECE438F11|10]] ,[[Lecture11ECE438F11|11]] ,[[Lecture12ECE438F11|12]] ,[[Lecture13ECE438F11|13]] ,[[Lecture14ECE438F11|14]] ,[[Lecture15ECE438F11|15]] ,[[Lecture16ECE438F11|16]] ,[[Lecture17ECE438F11|17]] ,[[Lecture18ECE438F11|18]] ,[[Lecture19ECE438F11|19]] ,[[Lecture20ECE438F11|20]] ,[[Lecture21ECE438F11|21]] ,[[Lecture22ECE438F11|22]] ,[[Lecture23ECE438F11|23]] ,[[Lecture24ECE438F11|24]] ,[[Lecture25ECE438F11|25]] ,[[Lecture26ECE438F11|26]] ,[[Lecture27ECE438F11|27]] ,[[Lecture28ECE438F11|28]] ,[[Lecture29ECE438F11|29]] ,[[Lecture30ECE438F11|30]] ,[[Lecture31ECE438F11|31]] ,[[Lecture32ECE438F11|32]] ,[[Lecture33ECE438F11|33]] ,[[Lecture34ECE438F11|34]] ,[[Lecture35ECE438F11|35]] ,[[Lecture36ECE438F11|36]] ,[[Lecture37ECE438F11|37]] ,[[Lecture38ECE438F11|38]] ,[[Lecture39ECE438F11|39]] ,[[Lecture40ECE438F11|40]] ,[[Lecture41ECE438F11|41]] ,[[Lecture42ECE438F11|42]] ,[[Lecture43ECE438F11|43]] ,[[Lecture44ECE438F11|44]], [[final_examECE438F11|final exam]] .
 ----
-== Collectively Solved Practice Problems  ==
+== Collectively Solved [[:Category:Problem_solving|Practice Problems]]  ==
 *Learn how to use Rhea
@@ Line 81: / Line 110: @@
 **[[Practice DTFT computation rect ECE438F11|What is the Fourier transform of this DT rect function?]]
-*Sampling of pure frequencies
+*Sampling and Nyquist Rate
 **[[Practice sampling pure frequencies A ECE438F1|Playing an A 440 with MATLAB]]
+**[[Practice_problem_finding_band_limited_signals_ECE438F11|What kind of signals are band limited?]]
 *Z-transform and inverse z-transform
@@ Line 89: / Line 119: @@
 *DFT
-**[[Compute DFT practice no1 ECE438F11|Compute this DFT]] <span style="text-decoration: blink;">NEW </span>
+**[[Compute DFT practice no1 ECE438F11|Compute this DFT]]
-<br>
+**[[Compute DFT practice no2 ECE438F11|Compute this other DFT]]
+**[[Exercise_effect_of_zero_padding_on_DFT_ECE438F11|What is the effect of zero padding on the DFT?]]
+*Spectral Analysis of continuous-space (2D) signals
+**[[Obtain_CSFT_complex_exponential|Obtain the continuous-space Fourier transform of a complex exponential]]
+**[[Compute_CSFT_of_2D_rect_function_ECE438F11|Obtain the continuous-space Fourier transform of a 2D rect]]
+**[[Compute_CSFT_of_2D_sinc_function_ECE438F11|Obtain the continuous-space Fourier transform of a 2D sinc]]
+*Spectral Analysis of discrete-space (2D) signals
+**[[Obtain_DSFT_rectangle|Obtain the discrete-space Fourier transform of a rectangle]] <span style="color: red;">
+**[[Compute_DSFT_product_two_step_functions_ECE438F11|Compute the discrete-space Fourier transform of this function]]
+**[[Compute_DSFT_cosine_ECE438F11|Compute the discrete-space Fourier transform of this cosine]]
 ----
 == Homework  ==
 *[[Hw1 ECE438F11|HW1]] due Wednesday August 31, 2011. [[Hw1 ECE438F11sln|Solution]]
 *[[Hw2 ECE438F11|HW2]] due Wednesday September 6, 2011. [[Hw2 ECE438F11sln|Example Solution]]
-*[[Hw3 ECE438F11|HW3]] due Wednesday September 28, 2011. [[Hw3 ECE438F11sln|Solution]]
+*[[Hw3 ECE438F11|HW3]] due Wednesday September 28, 2011 (extended to Sept 30). [[Hw3 ECE438F11sln|Solution]]
+*[[Hw4 ECE438F11|HW4]] due Wednesday October 5, 2011. [[Hw4 ECE438F11sln|Solution]]
+*[[Hw5 ECE438F11|HW5]] due Wednesday October 19, 2011. [[Hw5_ECE438F11sln|Solution]]
+*[[Hw6 ECE438F11|HW6]] due Wednesday October 26, 2011. [[Hw6_ECE438F11sln|Solution]]
+*[[Hw7 ECE438F11|HW7]] due Wednesday November 9, 2011.
+*[[Hw8 ECE438F11|HW8]] due Wednesday November 30, 2011. [[Hw8_ECE438F11sln|Solution]]
 ----
@@ Line 121: / Line 163: @@
 |-
 | 3
-| Something related to Signal Sampling
+| [[Upsampling and downsampling lab]]
-| TBD
+| Jun Zhang, Tianhe Liu
 |-
 | 4
@@ Line 145: / Line 187: @@
 |-
 | 9
-| Something related to image Processing
+| [[Similarity analysis of images]]
-| Name
+| Yang Zhu
 |-
 | 10
@@ Line 153: / Line 195: @@
 |-
 | 11
-| Something related to Audio Signal processing, analysis, encoding, ...
+| [[Audio Signal Processing with Down-sampler and LPF]]
-| Name
+| Bo Yuan, Wei Wang
+|-
+| 12
+| [[Audio Signal Generating and Processing Project]]
+| Yimin Xiao
 |-
 | 12
@@ Line 160: / Line 206: @@
 | Name (s)
 |}
 ----
@@ Line 165: / Line 215: @@
 [[ECE438|Back to ECE438]]
 [[Course List|Back to Semester/Instructor Specific Course Wikis]]
-[[Category:ECE438Fall2011Boutin]] [[Category:ECE438]]

Difference between revisions of "2011 Fall ECE 438 Boutin" - Rhea