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= [[ECE301]]:"Signals and Systems", Spring 2011, Professor [[User:Mboutin|Boutin]] =
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= [[ECE301]]:"Signals and Systems", Spring 2011, Professor [[User:Mboutin|Boutin]] =
<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;">
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<div style="border-bottom: rgb(68,68,136) 1px solid; text-align: center; border-left: rgb(51,51,136) 4px solid; padding-bottom: 2em; margin: auto; padding-left: 2em; width: 30em; padding-right: 2em; background: rgb(238,238,255); border-top: rgb(68,68,136) 1px solid; border-right: rgb(68,68,136) 1px solid; padding-top: 2em">
 
Message Area:  
 
Message Area:  
  
Look at this  [[Video_Tutorial_on_How_to_Cascade_Transformations_of_the_Independent_Variable|video tutorial on how to cascade transformations of the independent variable]] created by one of your colleagues.
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1. Would any of the students who attended yesterday's office hour be interested in earning some extra credit for making a video of the trick I showed for remembering the values of sine and cosine of some angles? -pm
  
 +
2. Check out these [[Complex Exponential and Sinusoidal Amplitude Modulation|videos explaining signal modulation]]!
 
</div>  
 
</div>  
 
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*What previous students have to say about this course:  
 
*What previous students have to say about this course:  
 
**[[Peer Legacy ECE301|Peer Legacy for EE301]]
 
**[[Peer Legacy ECE301|Peer Legacy for EE301]]
 +
 +
----
 +
 +
== Relevant Resources  ==
 +
 +
*[[Collective Table of Formulas|Rhea's Collective Table of Formulas]].
 +
*Video Extract of a talk by Prof. Joe Havlicek explaining the meaning of the Fourier transform very clearly using music.
 +
 +
::<youtube>Z65Xz_TR9S8</youtube>
 +
 +
----
 +
 +
== News  ==
 +
 +
*As requested by some students, I added three problems to practice CT convlution, and two problems for practicing basic signal's properties. -pm
 +
*As you know, Purdue was closed today Wednesday February 2, 2011. The [[Lecture10ECE301S11|lecture for that day]] was given in electronic format. See [[Lecture 10 online ECE301S11 Prof Boutin|this page]]. -pm
  
 
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The lecture blog will be written by your instructor. Feel free to add comments, questions, relevant links, etc.  
 
The lecture blog will be written by your instructor. Feel free to add comments, questions, relevant links, etc.  
  
[[Lecture1ECE301S11|Lecture 1]], [[Lecture2ECE301S11|2]], [[Lecture3ECE301S11|3]], [[Lecture4ECE301S11|4]], [[Lecture5ECE301S11|5]], [[Lecture6ECE301S11|6]], [[Lecture7ECE301S11|7]], [[Lecture8ECE301S11|8]]   
+
[[Lecture1ECE301S11|Lecture 1]], [[Lecture2ECE301S11|2]], [[Lecture3ECE301S11|3]], [[Lecture4ECE301S11|4]], [[Lecture5ECE301S11|5]], [[Lecture6ECE301S11|6]], [[Lecture7ECE301S11|7]], [[Lecture8ECE301S11|8]], [[Lecture9ECE301S11|9]], [[Lecture10ECE301S11|10]], [[Lecture11ECE301S11|11]], [[Lecture12ECE301S11|12]], [[Lecture13ECE301S11|13]], [[Lecture14ECE301S11|14]], [[Lecture15ECE301S11|15]], [[Lecture16ECE301S11|16]], [[Lecture17ECE301S11|17]], [[Lecture18ECE301S11|18]], [[Lecture19ECE301S11|19]], [[Lecture20ECE301S11|20]], [[Lecture21ECE301S11|21]], [[Lecture22ECE301S11|22]], [[Lecture23ECE301S11|23]], [[Lecture24ECE301S11|24]] [[Lecture25ECE301S11|25]], [[Lecture26ECE301S11|26]], [[Lecture27ECE301S11|27]], [[Lecture28ECE301S11|28]], [[Lecture29ECE301S11|29]], [[Lecture30ECE301S11|30]], [[Lecture31ECE301S11|31]], [[Lecture32ECE301S11|32]]
 +
 
 +
----
 +
 
 +
== Lecture Notes ==
  
See [[Lecture Blog ECE301 S11|all lectures combined]] in one page [[Lecture Blog ECE301 S11|here]].
+
*[[2011 Spring ECE 301 Bouton Notes|Lecture notes by Ethan Hall]]  
 +
*[[Lecture 10 online ECE301S11 Prof Boutin|Instructor's notes for Lecture 10]] (online lecture due to bad weather)
  
 
----
 
----
  
== Practice Problems ==
+
== Discussions  ==
 +
 
 +
*Suggested times for review session:<br> ===
 +
 
 +
:I suggest Wednesday at 3:30 or any time on Tuesday&nbsp;--[[User:Kellsper|Kellsper]] 22:47, 1 May 2011 (UTC)
 +
:Any time Tuesday or Wednesday after 4 works best for me --[[User:Ssanthak|Ssanthak]] 10:46, 2 May 2011 (UTC)
 +
::OK, thanks for the input. How about Wednesday 5-5:45. -pm?
 +
:That sounds good for me and Kara --[[User:Ssanthak|Ssanthak]] 19:03, 2 May 2011 (UTC)
 +
::Ok, let's do it then. -pm
 +
:Where would this review session be? --[[User:Srigney|Srigney]] 18:41, 3 May 2011 (UTC)
 +
::I will just hold it in my office (MSEE342). If too many people show up, we will go to my lab (MSEE393). This will not be a formal review session: I will answer all the questions you have and go over the material you ask me to go over. -pm
 +
 
 +
<br> Can a problem similar to Exam 2, Question 2 be posted using a CT signal rather than a DT signal? Thanks -cp
 +
 
 +
----
 +
 
 +
== Practice Problems ==
  
 
*Review of complex numbers  
 
*Review of complex numbers  
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**[[Signal power energy exercise DT ECE301S11|Compute the power and energy of the following DT signal]]  
 
**[[Signal power energy exercise DT ECE301S11|Compute the power and energy of the following DT signal]]  
 
*Transformation of the independent variable  
 
*Transformation of the independent variable  
**[[Cascade time delay and time scaling CT ECE301S11|Cascade the following time delay and time scaling]]
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**[[Cascade time delay and time scaling CT ECE301S11|Cascade the following time delay and time scaling]]  
*Basic Signal Properties
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*Basic Signal Properties <br>Comment: can you add an example of a memoryless system? Also a causal system?- a student <br>Sure. Here they are. -pm
**[[Invertibility_of_a_system_ECE301S11|Is the following system invertible?]]
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**[[Invertibility of a system ECE301S11|Is the following system invertible?]]  
**[[Stability_of_a_system_ECE301S11|Is the following system stable?]]
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**[[Stability of a system ECE301S11|Is the following system stable?]]
*Linearity and time invariance
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**[[Memoryless system question ECE301S11|Is the following system memoryless?]]
**[[Time_invariance_of_a_system_ECE301S11|Is the following system time-invariant?]]
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**[[Causal system question ECE301S11|Is the following system causal?]]  
**[[Linearity_of_a_system_ECE301S11|Is the following system linear?]]
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*Linearity and time invariance  
*Computing the output of an LTI system by convolution
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**[[Time invariance of a system ECE301S11|Is the following system time-invariant?]]  
**[[output_of_LTI_DT_system_by_convolution_ECE301S11|Compute the output of the following DT LTI system]]
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**[[Linearity of a system ECE301S11|Is the following system linear?]]
***[[output_of_LTI_DT_system_by_convolution_no2_ECE301S11|Another one like this]]
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***Please comment on the following solution to a related problem
***[[output_of_LTI_DT_system_by_convolution_no3_ECE301S11|And another one]]
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****[[Answer from a previous student Time invariance of a system please comment ECE301S11|Time-invariance of a system proved by a previous student]]  
***[[output_of_LTI_DT_system_by_convolution_no4_ECE301S11|And another one]]
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*Computing the output of an LTI system by convolution  
***[[output_of_LTI_DT_system_by_convolution_no5_ECE301S11|And another one]]
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**[[Output of LTI DT system by convolution ECE301S11|Compute the output of the following DT LTI system]]  
***[[output_of_LTI_DT_system_by_convolution_no6_ECE301S11|And another one]]
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***[[Output of LTI DT system by convolution no2 ECE301S11|Another one like this]]  
***[[output_of_LTI_DT_system_by_convolution_no7_ECE301S11|And another one]]
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***[[Output of LTI DT system by convolution no3 ECE301S11|And another one]]  
***[[output_of_LTI_DT_system_by_convolution_no8_ECE301S11|And another one]]
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***[[Output of LTI DT system by convolution no4 ECE301S11|And another one]]  
**[[output_of_LTI_CT_system_by_convolution_ECE301S11|Compute the output of the following CT LTI system]]
+
***[[Output of LTI DT system by convolution no5 ECE301S11|And another one]]  
 +
***[[Output of LTI DT system by convolution no6 ECE301S11|And another one]]  
 +
***[[Output of LTI DT system by convolution no7 ECE301S11|And another one]]  
 +
***[[Output of LTI DT system by convolution no8 ECE301S11|And another one]]  
 +
**[[Output of LTI CT system by convolution ECE301S11|Compute the output of the following CT LTI system]]  
 +
***[[Output of LTI CT system by convolution no2 ECE301S11|Another one like this]]
 +
***[[Output of LTI CT system by convolution no3 ECE301S11|And another one]]
 +
***[[Output of LTI CT system by convolution no4 ECE301S11|And another one]]
 +
*Computing the Fourier series coefficients of a CT signal
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**[[Fourier series coefficients sinusoidal CT ECE301S11|Obtain the Fourier series coefficients of this CT sinusoidal]]
 +
**[[Fourier series coefficients pulse train CT ECE301S11|Obtain the Fourier series coefficients of this CT pulse-train]]
 +
*Computing the Fourier series coefficients of a DT signal
 +
**[[Fourier series coefficients sinusoidal DT ECE301S11|Obtain the Fourier series coefficients of this DT sinusoidal]]
 +
**[[Fourier series coefficients pulse train DT ECE301S11|Obtain the Fourier series coefficients of this DT pulse-train]]
 +
*Computing the Fourier transform of a continuous-time signal:
 +
**[[Fourier transform etu CT ECE301S11|Compute the Fourier transform of e^-t u(t)]]
 +
**[[Fourier transform cosine CT ECE301S11|Compute the Fourier transform of cos(2 pi t).]]
 +
**[[Fourier transform cosine no2 CT ECE301S11|Compute the Fourier transform of cos(2 pi t + pi/12).]]
 +
**[[Fourier transform periodic rectangular pulse train CT ECE301S11|Compute the Fourier transform of a rectangular pulse-train]]
 +
**[[Fourier transform periodic triangular pulse train CT ECE301S11|Compute the Fourier transform of a triangular pulse-train]]
 +
*Properties of the Fourier transform of a continuous-time signal:
 +
**[[Problem on time shifting and time scaling property of Fourier transform ECE301S11Boutin|Derive a relationship between the FT of x(3t+7) and that of x(t)]]
 +
*Computing the Fourier transform of a discrete-time signal:
 +
**[[Fourier transform 3numinusn DT ECE301S11|Compute the Fourier transform of 3^n u[-n]]]
 +
**[[Fourier transform cosine DT ECE301S11|Compute the Fourier transform of cos(pi/6 n).]]
 +
**[[Fourier transform window DT ECE301S11|Compute the Fourier transform of u[n+1]-u[n-2]]]
 +
*Causal LTI systems defined by linear, constant coefficients difference equations:
 +
**[[Causal LTI System Difference Equation no1 ECE301S11|Example of "typical" questions on causal LTI systems defined by difference equations]]
 +
*Nyquist theorem
 +
**[[Nyquist rate for a sinc function|What is the Nyquist rate for this signal?]]
 +
**[[Nyquist rate for a signal ECE301S11|What is the Nyquist rate for this other signal?]]<span style="color: red"> Please look at the solution for this one prof. mimi, -ss </span>
 +
 
 +
:::Done. You were right. I added a few comments. I hope everything is clear now. -pm
 +
 
 +
**Can you post a question similar to number 2 on [[HW9 ECE301 Spring2011 Prof Boutin|the homework]]?-mm
 +
***Here is [[Samping and reconstruction of sinc ECE301S11|one]].
 +
***Here is [[Samping and reconstruction of sinc multiplied by exponential ECE301S11|another one]].
 +
***And [[Samping and reconstruction of sinc multiplied by exponential no1 ECE301S11|another one]].
 +
***And [[Samping and reconstruction of sinc multiplied by exponential no2 ECE301S11|another one]].
 +
***And [[Samping and reconstruction of sinc multiplied by cosine ECE301S11|another one]].
 +
**[[Nyquist rate after squaring sinc signals ECE301S11|What is the Nyquist rate of a sinc function multiplied by itself?]]
 +
**[[Nyquist rate after multiplicating sinc signals ECE301S11|What is the Nyquist rate of the multiplication of two sinc functions?]]
 +
*Modulation
 +
**[[Signal modulation with exponential ECE301S11|Demodulation of signal modulated with exponential]]
 +
**[[Signal modulation with cosine ECE301S11|Demodulation of signal modulated with cosine]]
 +
*Z-transform
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**[[Compute z-transform u n ECE301S11|Computation of the z-transform]]
 +
**[[Compute z-transform u -n ECE301S11|Another computation of the z-transform]]
 +
**[[Compute Inverse z-transform ECE301S11|Computation of the inverse z-transform]]
 +
**[[Compute Inverse z-transform 2 ECE301S11|Another computation of the inverse z-transform]]
 +
 
 
----
 
----
 +
 +
== Supplementary Problems from the Course book (Oppenheim-Willsky-Nawab)  ==
 +
 +
Note: these should only be attempted once you have completely solved and fully understood all the practice problems listed above and all the homework problems.
 +
 +
*Chapter 9: 9.1, 9.2, 9.3, 9.4, 9.6, 9.7, 9.8, 9.9, 9.12, 9.13, 9.14, 9.15, 9.21, 9.22, 9.23, 9.26, 9.27, 9.29, 9.30, 9.31, 9.33, 9.34, 9.35, 9.41, 9.42, 9.43, 9.44a)b), 9.45, 9.46, 9.47, 9.48.
 +
*Chapter 10: 10.1, 10.3, 10.4, 10.6, 10.7, 10.8, 10.9, 10.10, 10.11, 10.13, 10.15, 10.21, 10.22, 10.23, 10.24, 10.25, 10.26, 10.27, 10.30, 10.31, 10.32, 10.33, 10.43, 10.44.
 +
 +
*[[ECE301 S11 Exam 3 more practice|Student Made Problems for Final]]
 +
 +
----
 +
 +
== Practice Exams  ==
 +
 +
Please feel free to scan and post your solutions. Your instructor will try to grade them and post the graded version.
 +
 +
*Midterm 1
 +
**[[Media:Midterm1_ECE301_Fall06.pdf|Fall 2006]]
 +
**[[Media:Midterm1_ECE301_Spring07.pdf|Spring 2007]]
 +
***[[Media:Scan0003_ECE301Fall2008mboutin.pdf|A student solution]]
 +
**[[Media:Midterm1_ECE301_Fall07.pdf|Fall 2007]]
 +
***[[Media:Fall20070001_ECE301Fall2008mboutin.pdf|A student solution]]
 +
**[[Media:Midterm1_ECE301_Fall08.pdf|Fall 2008]]
 +
*Midterm 2
 +
**[[Media:Midterm2_ECE301_Fall06.pdf|Fall 2006]]
 +
***[[Midterm Exam Div 2 Fall 2006 Solution ECE301Fall2008mboutin|A student solution with instructor's comments]]
 +
***[[Midterm Exam Div 2 Fall 2006 scanned Solution ECE301Fall2008mboutin|Another student solution (scanned)]]
 +
**[[Media:Midterm2_ECE301_Spring07.pdf|Spring 2007]]
 +
**[[Media:Midterm2_ECE301_Fall07.pdf|Fall 2007]]
 +
***[[Media:Exam2_Fall07_Yimin.pdf|Current student solution: Can you grade it if you have time? Thanks!]]
 +
****[[Media:Solution_Exam2_Fall07_Yimin.pdf|Yes, here is the greaded version. -pm]]
 +
**[[Media:Midterm2_ECE301_Fall08.pdf|Fall 2008]]
 +
*Midterm 3
 +
**[[Media:Midterm3_ECE301_Fall06.pdf|Fall 2006]]
 +
**[[Media:Midterm3_ECE301_Spring07.pdf|Spring 2007]]
 +
**[[Media:Midterm3_ECE301_Fall07.pdf|Fall 2007]]
 +
**[[Media:Midterm3_ECE301_Fall08.pdf|Fall 2008]]
 +
*Final
 +
**[[Media:Final_ECE301_Fall06.pdf|Fall 2006]]
 +
**[[Media:Final_ECE301_Spring07.pdf|Spring 2007]]
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**[[Media:Final_ECE301_Fall07.pdf|Fall 2007]]
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**[[Media:Final_ECE301_Fall08.pdf|Fall 2008]]
 +
 +
----
 +
 
== Homework  ==
 
== Homework  ==
  
*[[HW1 ECE301 Spring2011 Prof Boutin|HW1]], due Wednesday January 19, 2011. [[Discussion HW1 ECE301 Spring2011|Hw1 discussion page]] ([[HW1 ECE301 Spring2011 Prof Boutin Solution‎ |Solutions]])
+
*[[HW1 ECE301 Spring2011 Prof Boutin|HW1]], due Wednesday January 19, 2011. [[Discussion HW1 ECE301 Spring2011|Hw1 discussion page]] ([[HW1 ECE301 Spring2011 Prof Boutin Solution|Solutions]]) [[HW1 ECE301 Spring2011 Prof Boutin Grading|Grading]]
*[[HW2 ECE301 Spring2011 Prof Boutin|HW2]], due Wednesday January 26, 2011. [[Discussion HW2 ECE301 Spring2011|hw2 discussion page]]
+
*[[HW2 ECE301 Spring2011 Prof Boutin|HW2]], due Wednesday January 26, 2011. [[Discussion HW2 ECE301 Spring2011|hw2 discussion page]] ([[HW2 ECE301 Spring2011 Prof Boutin Solution|Solutions]]) [[HW2 ECE301 Spring2011 Prof Boutin Grading|Grading]]  
*[[HW3 ECE301 Spring2011 Prof Boutin|HW3]], due Monday Feb. 8, 2011. [[Discussion_HW3_ECE301_Spring2011|hw3 discussion page]]
+
*[[HW3 ECE301 Spring2011 Prof Boutin|HW3]], due Monday Feb. 7, 2011. [[Discussion HW3 ECE301 Spring2011|hw3 discussion page]] ([[HW3 ECE301 Spring2011 Prof Boutin Solutions|Solutions]]) [[HW3 ECE301 Spring2011 Prof Boutin Grading|Grading]]
 +
*[[HW4 ECE301 Spring2011 Prof Boutin|HW4]], due Monday Feb. 14, 2011. [[Discussion HW4 ECE301 Spring2011|hw4 discussion page]] ([[HW4 ECE301 Spring2011 Prof Boutin Solutions|Solutions]]) [[HW4 ECE301 Spring2011 Prof Boutin Grading|Grading]]
 +
*[[HW5 ECE301 Spring2011 Prof Boutin|HW5]], due by 6pm Wednesday March 2, 2011. [[Discussion HW5 ECE301 Spring2011|hw5 discussion page]] ([[HW5 ECE301 Spring2011 Prof Boutin Solutions|Solutions]])
 +
*[[HW6 ECE301 Spring2011 Prof Boutin|HW6 (peer review of HW5)]], due by 6pm Friday March 11, 2011. [[Discussion HW6 ECE301 Spring2011|hw6 discussion page]]
 +
*[[HW7 ECE301 Spring2011 Prof Boutin|HW7]], due by 23:59:59 Wednesday March 16, 2011. [[Discussion HW7 ECE301 Spring2011|hw7 discussion page]], [[HW7 ECE301 Spring2011 Prof Boutin Solutions|solutions]]
 +
*[[HW8 ECE301 Spring2011 Prof Boutin|HW8 (peer review of HW7)]], due by 6pm Wednesday March 23, 2011. [[Discussion HW8 ECE301 Spring2011|hw8 discussion page]]
 +
*[[HW9 ECE301 Spring2011 Prof Boutin|HW9]], due in class Wednesday April 6, 2011. [[Discussion HW9 ECE301 Spring2011|hw9 discussion page]] ([[HW9 ECE301 Spring2011 Prof Boutin Solutions|Solutions]])
 +
*[[HW10 ECE301 Spring2011 Prof Boutin|HW10]], due by 6pm Wednesday April 13, 2011. [[Discussion HW10 ECE301 Spring2011|hw10 discussion page]] ([[HW10 ECE301 Spring2011 Prof Boutin Solutions|Solutions]])
 +
*[[HW11 ECE301 Spring2011 Prof Boutin|HW11 (peer review of HW10)]], due by 6pm Wednesday April 20, 2011. [[Discussion HW11 ECE301 Spring2011|hw11 discussion page]]
  
 
----
 
----
  
== Relevant Resources ==
+
== Exams ==
  
*[[Collective Table of Formulas|Rhea's Collective Table of Formulas]].
+
*Midterm 1
 +
**[[EXAM1 ECE301 Spring2011 Prof Boutin Statistics|Statistics]]
 +
*Midterm 2
 +
**[[EXAM2 ECE301 Spring2011 Prof Boutin Statistics|Statistics]]
  
 
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All [[ECE301]] students in [[User:Mboutin|Prof. Mimi's]] section have the opportunity to earn up to a 3% bonus on their course grade by contributing a [[About Rhea|Rhea]] page on a subject related to signals and systems. Examples of subjects are listed below. Feel free to come up with your own. To pick a subject, write your name next to it in the table below. Then when you begin writing your page, also post a link to it in the appropriate space (where it says "put link to your page here"). 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:Copyrights|Rhea's copyright policy]] before proceeding.  
 
All [[ECE301]] students in [[User:Mboutin|Prof. Mimi's]] section have the opportunity to earn up to a 3% bonus on their course grade by contributing a [[About Rhea|Rhea]] page on a subject related to signals and systems. Examples of subjects are listed below. Feel free to come up with your own. To pick a subject, write your name next to it in the table below. Then when you begin writing your page, also post a link to it in the appropriate space (where it says "put link to your page here"). 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:Copyrights|Rhea's copyright policy]] before proceeding.  
  
{| border="1" class="wikitable"
+
{| class="wikitable" border="1"
 
|-
 
|-
 
! Topic Number  
 
! Topic Number  
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|-
 
|-
 
| 1  
 
| 1  
| Theory and Applications of Linearity (put link to your page here)
+
| [[Linearity_Spring_2011| Theory and Applications of Linearity]]&nbsp;
| your name
+
| Kaylee Joseph
 
|-
 
|-
 
| 2  
 
| 2  
| A video tutorial on convolution (put link to your page here)
+
| [[ConvolutionVideoSpring11| A video tutorial on convolution]]
| your name
+
| Sachin Santhakumar
 
|-
 
|-
 
| 3  
 
| 3  
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|-
 
|-
 
| 4  
 
| 4  
| Beyond complex exponentials: other series expansions for functions (put link to your page here)
+
| [[Book_Review/Bhakti| Book Review of "Shaum's Outlines of Signals and Systems"]]
| your name
+
| Bhakti Khandagale
 
|-
 
|-
 
| 5  
 
| 5  
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|-
 
|-
 
| 6  
 
| 6  
| subject
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| [[2011 Spring ECE 301 Bouton Notes|Lecture Notes]]
| your name
+
| Ethan Hall
 +
|-
 +
| 7
 +
| [[Table of CT Fourier series coefficients and properties (include some computations and proofs if you are really brave)|Table of CT Fourier series coefficients and properties]]
 +
| Carolyn McMican
 +
|-
 +
| 8
 +
| Table of DT Fourier series coefficients and properties (include some computations and proofs if you are really brave
 +
| Hale Petersen
 +
|-
 +
| 9
 +
| [[Fourier Transform Video]]
 +
| Ben Winski
 +
|-
 +
| 10
 +
| Add onto our collective tables of [[CT Fourier Transform (frequency in radians per time unit)|CT Fourier transforms]] and [[Table DT Fourier Transforms|DT Fourier transforms]], and link formulas to related Rhea pages.
 +
| David Baer
 +
|-
 +
| 11
 +
| [[Textbook Review: Fundamentals of Signals|Review of an Alternate Textbook]]
 +
| Carolyn McMican
 +
|-
 +
| 12
 +
| [[ECE301inBME|Biomedical Applications of ECE301]]
 +
| Kara Ellspermann
 +
|-
 +
| 13
 +
| [[Complex Exponential and Sinusoidal Amplitude Modulation]]
 +
| Michael Gardner
 +
|-
 +
| 14
 +
| [[Book Review: Signals & Systems MJR|Review of an alternate book]]
 +
| Artyom Melanich
 
|}
 
|}
 +
 +
<br>
  
 
----
 
----
  
[[Course List|Back to semester/instructor specific course wiki lists]]  
+
<br>[[Course List|Back to semester/instructor specific course wiki lists]]  
  
 
[[ECE301|Back to ECE301]]  
 
[[ECE301|Back to ECE301]]  
  
 
[[Category:ECE301Spring2011Boutin]]
 
[[Category:ECE301Spring2011Boutin]]

Latest revision as of 09:36, 11 November 2011

ECE301:"Signals and Systems", Spring 2011, Professor Boutin

Message Area:

1. Would any of the students who attended yesterday's office hour be interested in earning some extra credit for making a video of the trick I showed for remembering the values of sine and cosine of some angles? -pm

2. Check out these videos explaining signal modulation!


Course Information

  • Instructor: Prof. Mimi
  • Teaching Assistant: Imad Ahmad
    • Email: ahmadi@purdue.edu
    • Office: EE 238
    • Office Hours: TR 12:00-2:00
  • Schedule
  • Course Syllabus
  • Important Dates:
    • Test 1, Wednesday Feb 16, 2011
    • Test 2, Friday March 25, 2011
    • Test 3, Friday April 22, 2011
    • Final, TBD
  • What previous students have to say about this course:

Relevant Resources


News

  • As requested by some students, I added three problems to practice CT convlution, and two problems for practicing basic signal's properties. -pm
  • As you know, Purdue was closed today Wednesday February 2, 2011. The lecture for that day was given in electronic format. See this page. -pm

Lecture Blog

The lecture blog will be written by your instructor. Feel free to add comments, questions, relevant links, etc.

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


Lecture Notes


Discussions

  • Suggested times for review session:
    ===
I suggest Wednesday at 3:30 or any time on Tuesday --Kellsper 22:47, 1 May 2011 (UTC)
Any time Tuesday or Wednesday after 4 works best for me --Ssanthak 10:46, 2 May 2011 (UTC)
OK, thanks for the input. How about Wednesday 5-5:45. -pm?
That sounds good for me and Kara --Ssanthak 19:03, 2 May 2011 (UTC)
Ok, let's do it then. -pm
Where would this review session be? --Srigney 18:41, 3 May 2011 (UTC)
I will just hold it in my office (MSEE342). If too many people show up, we will go to my lab (MSEE393). This will not be a formal review session: I will answer all the questions you have and go over the material you ask me to go over. -pm


Can a problem similar to Exam 2, Question 2 be posted using a CT signal rather than a DT signal? Thanks -cp


Practice Problems

Done. You were right. I added a few comments. I hope everything is clear now. -pm

Supplementary Problems from the Course book (Oppenheim-Willsky-Nawab)

Note: these should only be attempted once you have completely solved and fully understood all the practice problems listed above and all the homework problems.

  • Chapter 9: 9.1, 9.2, 9.3, 9.4, 9.6, 9.7, 9.8, 9.9, 9.12, 9.13, 9.14, 9.15, 9.21, 9.22, 9.23, 9.26, 9.27, 9.29, 9.30, 9.31, 9.33, 9.34, 9.35, 9.41, 9.42, 9.43, 9.44a)b), 9.45, 9.46, 9.47, 9.48.
  • Chapter 10: 10.1, 10.3, 10.4, 10.6, 10.7, 10.8, 10.9, 10.10, 10.11, 10.13, 10.15, 10.21, 10.22, 10.23, 10.24, 10.25, 10.26, 10.27, 10.30, 10.31, 10.32, 10.33, 10.43, 10.44.

Practice Exams

Please feel free to scan and post your solutions. Your instructor will try to grade them and post the graded version.


Homework


Exams


Your turn! A bonus point opportunity

All ECE301 students in Prof. Mimi's section have the opportunity to earn up to a 3% bonus on their course grade by contributing a Rhea page on a subject related to signals and systems. Examples of subjects are listed below. Feel free to come up with your own. To pick a subject, write your name next to it in the table below. Then when you begin writing your page, also post a link to it in the appropriate space (where it says "put link to your page here"). 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 Theory and Applications of Linearity  Kaylee Joseph
2 A video tutorial on convolution Sachin Santhakumar
3 Sound processing ECE301 techniques (put link to your page here) your name
4 Book Review of "Shaum's Outlines of Signals and Systems" Bhakti Khandagale
5 Video Tutorial on How to Cascade Transformations of the Independent Variable Richard Gieseck
6 Lecture Notes Ethan Hall
7 Table of CT Fourier series coefficients and properties Carolyn McMican
8 Table of DT Fourier series coefficients and properties (include some computations and proofs if you are really brave Hale Petersen
9 Fourier Transform Video Ben Winski
10 Add onto our collective tables of CT Fourier transforms and DT Fourier transforms, and link formulas to related Rhea pages. David Baer
11 Review of an Alternate Textbook Carolyn McMican
12 Biomedical Applications of ECE301 Kara Ellspermann
13 Complex Exponential and Sinusoidal Amplitude Modulation Michael Gardner
14 Review of an alternate book Artyom Melanich




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