(Question 1)
(Question 2)
 
(6 intermediate revisions by the same user not shown)
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Recall that this signal is periodic if  <math>T = {\omega_0\over2\pi}\,</math>  is rational.  
 
Recall that this signal is periodic if  <math>T = {\omega_0\over2\pi}\,</math>  is rational.  
  
Say I choose the sampling frequency <math>Ts=.1</math>
+
Say I choose the sampling period <math>T_s=.1\,</math>
  
 
The output will be:
 
The output will be:
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[[Image:Smooth_sin_ECE301Fall2008mboutin.jpg]]
 
[[Image:Smooth_sin_ECE301Fall2008mboutin.jpg]]
  
But if I choose the sampling frequency to be <math>Ts=.7</math>
+
But if I choose the sampling period to be <math>T_s=.7\,</math>
 +
 
 +
 
 
[[Image:Messed_sin_ECE301Fall2008mboutin.jpg]]
 
[[Image:Messed_sin_ECE301Fall2008mboutin.jpg]]
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 +
== Question 2 ==
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 +
I'm including the code for this part because I found help using Tyler Houlihan's work. He apparently also received help from Wei Jian Chan's HW. I used Tyler's code as a base to recreate a periodic signal from:
 +
 +
<math>e^{-t}sin(t)\,</math>
 +
 +
Here's the code:
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<pre>
 +
%Creating 3 time vectors
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t=[0:0.001:1.5;0:0.001:1.5;0:0.001:1.5];
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 +
%setting the three variables, with their offsets   
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y =exp(-t(1,:)).*sin(t(1,:));
 +
y2=exp(-t(2,:)).*sin(t(2,:));
 +
y3=exp(-t(3,:)).*sin(t(3,:));
 +
 +
%concatenating them, ie putting them after another
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y4=[y,y2,y3];
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 +
%making the new time axis for the whole thing
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t=0:0.001:4.502;
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 +
%plotting
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plot(t,y4);
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</pre>
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 +
and the plot
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 +
 +
[[Image: Periodic_ECE301Fall2008mboutin.jpg]]

Latest revision as of 15:24, 11 September 2008

Question 1

I chose the signal $ x[n]=e^{j\pi n} \, $ which Jeff Kubascik posted on his HW1.

Recall that this signal is periodic if $ T = {\omega_0\over2\pi}\, $ is rational.

Say I choose the sampling period $ T_s=.1\, $

The output will be:

Smooth sin ECE301Fall2008mboutin.jpg

But if I choose the sampling period to be $ T_s=.7\, $


Messed sin ECE301Fall2008mboutin.jpg

Question 2

I'm including the code for this part because I found help using Tyler Houlihan's work. He apparently also received help from Wei Jian Chan's HW. I used Tyler's code as a base to recreate a periodic signal from:

$ e^{-t}sin(t)\, $

Here's the code:

%Creating 3 time vectors
t=[0:0.001:1.5;0:0.001:1.5;0:0.001:1.5];

%setting the three variables, with their offsets    
y =exp(-t(1,:)).*sin(t(1,:));
y2=exp(-t(2,:)).*sin(t(2,:));
y3=exp(-t(3,:)).*sin(t(3,:));

%concatenating them, ie putting them after another
y4=[y,y2,y3];

%making the new time axis for the whole thing
t=0:0.001:4.502;

%plotting
plot(t,y4);

and the plot


Periodic ECE301Fall2008mboutin.jpg

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