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==Top Rated== | ==Top Rated== | ||
| + | *[[HW8_-_Zachary_Curosh:_Impulse-train_Sampling_ECE301Fall2008mboutin|A summary of impulse-train sampling]] | ||
| + | *[[Students%27_statements_of_the_Sampling_Theorem_%28ECE301Summer2008asan%29|Many ways to mis-state the Sampling theorem]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Animated_Aliasing_Example|Animated aliasing example]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Sampling_Theorem|The Sampling Theorem]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Properties_of_Systems|Properties of Systems]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Common_Questions_on_FS/FT_Answered_By_Mimi|Questions about Fourier transform of periodic signals, answered by Prof. Mimi]] | ||
*[[Hw1periodicECE301f08profcomments|Two things you should know about periodic and non-periodic signals]] | *[[Hw1periodicECE301f08profcomments|Two things you should know about periodic and non-periodic signals]] | ||
*[[ECE_301_Fall_2007_mboutin_Guide_to_Partial_Fraction_Expansion|A student guide to partial fraction expansion]] | *[[ECE_301_Fall_2007_mboutin_Guide_to_Partial_Fraction_Expansion|A student guide to partial fraction expansion]] | ||
*[[ECE_301_Fall_2007_mboutin_DT_Fourier_Series_in_Matlab|DT Fourier series with a single command in MATLAB]] | *[[ECE_301_Fall_2007_mboutin_DT_Fourier_Series_in_Matlab|DT Fourier series with a single command in MATLAB]] | ||
| − | + | *[[ECE_301_Fall_2007_mboutin_Filter_Types|Types of filters]] | |
| + | *[[ECE_301_Fall_2007_mboutin_Sifting_Property|Sifting property]] | ||
==Others== | ==Others== | ||
| + | *[[Final_ECE301Fall2008mboutin|Final exam summary]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Nyquist_Example|Nyquist example]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Sampling_Theorem|page on sampling theorem]] | ||
| + | *[[Sourabh_Ranka:_Sampling_Theorem_ECE301Fall2008mboutin|another page on sampling theorem]] | ||
| + | *[[Tyler_Houlihan:_Chapter_7_Notes_ECE301Fall2008mboutin|another page on sampling theorem]] | ||
| + | *[[David_Record:_Sampling-_A_bridge_between_CT_and_DT_ECE301Fall2008mboutin|page on sampling]] | ||
| + | *[[HW8_-_Zachary_Curosh:_Impulse-train_Sampling_ECE301Fall2008mboutin|page on impulse-train sampling]] | ||
| + | *[[Max_Paganini:_Why_does_h(t)_work_when_sampling_with_zero-order_hold_ECE301Fall2008mboutin|page on sampling with zero-order hold]] | ||
| + | *[[Tyler_Houlihan_-_Sampling_with_zero-order_hold_ECE301Fall2008mboutin|another page on zero-order hold sampling]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Meaning_of_Fourier_Transform|Meaning of Fourier transform]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Geometric_Series_Note|Geometric series notes]] | ||
*[[Zachary Curosh - Frequency Response and Difference Equations ECE301Fall2008mboutin|How to get the frequency response of a system defined by a difference equation]] | *[[Zachary Curosh - Frequency Response and Difference Equations ECE301Fall2008mboutin|How to get the frequency response of a system defined by a difference equation]] | ||
*[[Video Tutorial on How to Cascade Transformations of the Independent Variable|Cascading transformations of the independent variable, a video tutorial]] | *[[Video Tutorial on How to Cascade Transformations of the Independent Variable|Cascading transformations of the independent variable, a video tutorial]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Fourier_in_Matlab|Fourier in MATLAB]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Difference_Equation_in_Class_Example|Issue with LTI system defined by difference equation]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Simplified_View_of_Cascaded_Systems|Simplified view of cascaded systems]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Sampling_Theorem_Def|Sampling Theorem]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Even/Odd_Fourier_Coefficients|Even and Odd Fourier series Coefficients]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Multidimension_Fourier_Transform|Multidimension Fourier transform]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Difference_Between_Fourier_and_Laplace|Difference between Fourier and Laplace transform]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Convergence_of_Fourier_Transforms|Convergence of Fourier transform]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Fourier_Transform_Table|Student table of Fourier transform]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Duality|Duality]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Fourier_Coefficient_LTI_Transfer|Fourier coefficients and transfer function]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Definition_of_Sampling_Theorem|Sampling theorem]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Most_General_Convolutions_%28CT%29|General formula for convolving two step functions multiplied by exponential]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Convolution_Simplification|Convolution simplification]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Properties_of_Convolution_and_LTI_Systems|Properties of convolution]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Simplified_View_of_Cascaded_Systems|Simplified view of cascades systems]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Properties_of_Systems|Properties of systems]] | ||
| + | *[[ECE_301_Fall_2007_mboutin_Periodic_Signals|Definitions periodic signals]] | ||
*[[ECE_301_Fall_2007_mboutin_Making_Answer_Fit_Solution_Key|Making your answer fit the solution for problem 22.a b)]] | *[[ECE_301_Fall_2007_mboutin_Making_Answer_Fit_Solution_Key|Making your answer fit the solution for problem 22.a b)]] | ||
*[[ECE_301_Fall_2007_mboutin_Geometric_Series_Note|A note on the geometric series]] | *[[ECE_301_Fall_2007_mboutin_Geometric_Series_Note|A note on the geometric series]] | ||
*[[Homework 1 ECE301Fall2008mboutin|301 students playing music with Matlab]] | *[[Homework 1 ECE301Fall2008mboutin|301 students playing music with Matlab]] | ||
*[[HW1.4 Ben Laskowski - Periodic and Non-Periodic Functions ECE301Fall2008mboutin|Animated example of periodic function]] | *[[HW1.4 Ben Laskowski - Periodic and Non-Periodic Functions ECE301Fall2008mboutin|Animated example of periodic function]] | ||
| − | |||
*[[What are all these symbols?! ECE301Fall2008mboutin|What are all these symbols? (from Fall 2008)]] | *[[What are all these symbols?! ECE301Fall2008mboutin|What are all these symbols? (from Fall 2008)]] | ||
*A mystery about complex number: why is <span class="texhtml">''e''<sup>''j''2π''t''</sup></span> not equal to one? More precisely, why can't one say that <span class="texhtml">''e''<sup>''j''2π''t''</sup> = (''e''<sup>''j''2π</sup>)<sup>''t''</sup> = 1<sup>''t''</sup> = 1</span>? Please discuss [[Main Page ECE301Fall2008chihw|here]]. | *A mystery about complex number: why is <span class="texhtml">''e''<sup>''j''2π''t''</sup></span> not equal to one? More precisely, why can't one say that <span class="texhtml">''e''<sup>''j''2π''t''</sup> = (''e''<sup>''j''2π</sup>)<sup>''t''</sup> = 1<sup>''t''</sup> = 1</span>? Please discuss [[Main Page ECE301Fall2008chihw|here]]. | ||
*[[Examples ECE301Fall2008mboutin|Some practice exam problems]] | *[[Examples ECE301Fall2008mboutin|Some practice exam problems]] | ||
*[[ECE 301 Fall 2007 mboutin AM and FM Radio|AM and FM Radio, from Fall 2007]] | *[[ECE 301 Fall 2007 mboutin AM and FM Radio|AM and FM Radio, from Fall 2007]] | ||
| + | *[[Communative_Property_for_Discrete_Time_%28ECE301Summer2008asan%29|Proof of the commutativity property of DT systems]] | ||
| + | *[[Distributed Property for Discrete Time_(ECE301Summer2008asan)|Distributed Property for Discrete Time]] | ||
| + | *[[Distributed Property for Continuous time_(ECE301Summer2008asan)|Distributed Property for Continuous time]] | ||
| + | *[[Associative Property for Discrete Time_(ECE301Summer2008asan)|Associative Property for Discrete Time]] | ||
| + | *[[Associative Property for Continous Time_(ECE301Summer2008asan)|Associative Property for Continous Time]] | ||
| + | *[[Commutative, Distributive and Associative_(ECE301Summer2008asan)|Commutative, Distributive and Associative]] | ||
| + | *[[All three properties_(ECE301Summer2008asan)|All three properties]] | ||
| + | *[[HW1.4_Monil_Goklani_-_Periodic_and_Non-periodic_Functions_ECE301Fall2008mboutin|Obtaining a periodic function by sampling a sine]] | ||
---- | ---- | ||
<center><font size= 3> | <center><font size= 3> | ||
Latest revision as of 05:12, 16 September 2013
Tutorials and other Learning Material
Top Rated
- A summary of impulse-train sampling
- Many ways to mis-state the Sampling theorem
- Animated aliasing example
- The Sampling Theorem
- Properties of Systems
- Questions about Fourier transform of periodic signals, answered by Prof. Mimi
- Two things you should know about periodic and non-periodic signals
- A student guide to partial fraction expansion
- DT Fourier series with a single command in MATLAB
- Types of filters
- Sifting property
Others
- Final exam summary
- Nyquist example
- page on sampling theorem
- another page on sampling theorem
- another page on sampling theorem
- page on sampling
- page on impulse-train sampling
- page on sampling with zero-order hold
- another page on zero-order hold sampling
- Meaning of Fourier transform
- Geometric series notes
- How to get the frequency response of a system defined by a difference equation
- Cascading transformations of the independent variable, a video tutorial
- Fourier in MATLAB
- Issue with LTI system defined by difference equation
- Simplified view of cascaded systems
- Sampling Theorem
- Even and Odd Fourier series Coefficients
- Multidimension Fourier transform
- Difference between Fourier and Laplace transform
- Convergence of Fourier transform
- Student table of Fourier transform
- Duality
- Fourier coefficients and transfer function
- Sampling theorem
- General formula for convolving two step functions multiplied by exponential
- Convolution simplification
- Properties of convolution
- Simplified view of cascades systems
- Properties of systems
- Definitions periodic signals
- Making your answer fit the solution for problem 22.a b)
- A note on the geometric series
- 301 students playing music with Matlab
- Animated example of periodic function
- What are all these symbols? (from Fall 2008)
- A mystery about complex number: why is ej2πt not equal to one? More precisely, why can't one say that ej2πt = (ej2π)t = 1t = 1? Please discuss here.
- Some practice exam problems
- AM and FM Radio, from Fall 2007
- Proof of the commutativity property of DT systems
- Distributed Property for Discrete Time
- Distributed Property for Continuous time
- Associative Property for Discrete Time
- Associative Property for Continous Time
- Commutative, Distributive and Associative
- All three properties
- Obtaining a periodic function by sampling a sine
Click HERE to view all pages in the ECE301 Category.
