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This is the test page, like a sandbox, where you can try whatever you want.
 
This is the test page, like a sandbox, where you can try whatever you want.
  
<source lang="m">
+
[[:Category:ECE662_OldKiwi|ECE662]]
function S = DFTsum(x)
+
[[:Category:Sampling Theorem_OldKiwi|Sampling Theorem]]
  
 +
<source lang="matlab">
 +
function S = DFTsum(x)
 
N = length(x);
 
N = length(x);
 
S = zeros(1, N);
 
S = zeros(1, N);
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S(k) = sum(x(n) .* exp(-j*2*pi*(k-1)*(n-1)/N));
 
S(k) = sum(x(n) .* exp(-j*2*pi*(k-1)*(n-1)/N));
 
end
 
end
 
 
end
 
end
 
</source>
 
</source>
 +
 +
== Labeled Section Transclusion ==
 +
{{#lsth:Scilab_-_resources_related_to_Scilab|Brief Introduction to Scilab}}
 +
 +
=== Convolution ===
 +
'''[[TestZoom_OldKiwi#Mathematical Definition|Zoom In]]'''
 +
{{#lsth:TestZoom|Generic Definition}}
  
 
== FLV PLayer ==
 
== FLV PLayer ==
<flvplayer height="320" width="480">TeachingTool.flv</flvplayer>
+
<flvplayer height="480" width="640" autoplay="false">TeachingTool.flv</flvplayer>
  
 
== Media Include ==
 
== Media Include ==
 
[[Media:TeachingTool_OldKiwi.flv]]
 
[[Media:TeachingTool_OldKiwi.flv]]
 
[[Category:Test]]
 

Latest revision as of 10:02, 27 March 2008

Test Page

This is the test page, like a sandbox, where you can try whatever you want.

ECE662 Sampling Theorem

function S = DFTsum(x)
N = length(x);
S = zeros(1, N);
n = 1:N;
 
for k = 1:N
S(k) = sum(x(n) .* exp(-j*2*pi*(k-1)*(n-1)/N));
end
end

Labeled Section Transclusion

{{#lsth:Scilab_-_resources_related_to_Scilab|Brief Introduction to Scilab}}

Convolution

Zoom In {{#lsth:TestZoom|Generic Definition}}

FLV PLayer

<flvplayer height="480" width="640" autoplay="false">TeachingTool.flv</flvplayer>

Media Include

Media:TeachingTool_OldKiwi.flv

Alumni Liaison

Correspondence Chess Grandmaster and Purdue Alumni

Prof. Dan Fleetwood