Line 44: | Line 44: | ||
---- | ---- | ||
== Practice Problems == | == Practice Problems == | ||
− | |||
*Review of complex numbers | *Review of complex numbers | ||
**[[Magnitude complex numbers ECE301S11|Compute the magnitude of these three complex numbers]] | **[[Magnitude complex numbers ECE301S11|Compute the magnitude of these three complex numbers]] | ||
Line 83: | Line 82: | ||
**[[Fourier_series_coefficients_sinusoidal_DT_ECE301S11|Obtain the Fourier series coefficients of this DT sinusoidal]] | **[[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]] | **[[Fourier_series_coefficients_pulse_train_DT_ECE301S11|Obtain the Fourier series coefficients of this DT pulse-train]] | ||
+ | ---- | ||
+ | ==Practice Exams== | ||
+ | *Midterm 1 | ||
+ | **Spring 2007 | ||
+ | * [[Media:Scan0003_ECE301Fall2008mboutin.pdf|Spring2007]] | ||
+ | **Fall 2007 | ||
+ | *** [[Media:Fall20070001_ECE301Fall2008mboutin.pdf|A past student solution]] | ||
+ | *Midterm 2 | ||
+ | **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)]] | ||
---- | ---- | ||
== Homework == | == Homework == |
Revision as of 12:07, 9 February 2011
Contents
ECE301:"Signals and Systems", Spring 2011, Professor Boutin
Message Area:
Wanted: a table of CT fourier series, and a table of DT fourier series for the Collective table of formulas. (See bonus point opportunity below).
Course Information
- Instructor: Prof. Mimi
- Office: MSEE 342
- Office hours are listed here.
- 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:
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
See all lectures combined in one page here.
Lecture Notes
- Lecture notes by Ethan Hall
- Instructor's notes for Lecture 10 (online lecture due to bad weather)
Practice Problems
- Review of complex numbers
- Signal Power and Energy
- Transformation of the independent variable
- Basic Signal Properties
Comment: can you add an example of a memoryless system? Also a causal system?- a student
Sure. Here they are. -pm - Linearity and time invariance
- Is the following system time-invariant?
- Is the following system linear?
- Please comment on the following solution to a related problem
- Computing the output of an LTI system by convolution
- Computing the Fourier series coefficients of a CT signal
- Computing the Fourier series coefficients of a DT signal
Practice Exams
- Midterm 1
- Spring 2007
- Spring2007
- Fall 2007
- Midterm 2
Homework
- HW1, due Wednesday January 19, 2011. Hw1 discussion page (Solutions)
- HW2, due Wednesday January 26, 2011. hw2 discussion page (Solutions)
- HW3, due Monday Feb. 7, 2011. hw3 discussion page (Solutions)
- HW4, due Monday Feb. 14, 2011. hw4 discussion page
Relevant Resources
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 (put link to your page here) | your name |
2 | A video tutorial on convolution (put link to your page here) | your name |
3 | Sound processing ECE301 techniques (put link to your page here) | your name |
4 | Beyond complex exponentials: other series expansions for functions (put link to your page here) | your name |
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 (include some computations and proofs if you are really brave | your name |
8 | Table of DT Fourier series coefficients and properties (include some computations and proofs if you are really brave | your name |