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[[Category:Hw3ECE438F09boutin]]
 
[[Category:Hw3ECE438F09boutin]]
  
=HW3_Signal Reconstruction_Interpolation=
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=HW3_Signal Reconstruction_Interpolation (Band-limited)=
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After having creating a sampled version of your original function, '''<math>X_{s}</math>''', we need to reconstruct the original function '''<math>x(t)</math>'''.  To do this, the Whittaker-Shannon interpolation formula is utilized.
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The sampling theorem says that given a function that meets two requirements:
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:1)  It is band-limited.  This means that the Fourier transform of the original signal, also known as the spectrum, is 0 for |f| > B, where B is the bandwidth.
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:2)  It is sampled at the Nyquist frequency, <math>f_s > 2B</math>
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it can be exactly reconstructed from its samples.
  
After creating a sampling version of your original function
 
  
  

Revision as of 17:28, 22 September 2009


HW3_Signal Reconstruction_Interpolation (Band-limited)

After having creating a sampled version of your original function, $ X_{s} $, we need to reconstruct the original function $ x(t) $. To do this, the Whittaker-Shannon interpolation formula is utilized.

The sampling theorem says that given a function that meets two requirements:

1) It is band-limited. This means that the Fourier transform of the original signal, also known as the spectrum, is 0 for |f| > B, where B is the bandwidth.
2) It is sampled at the Nyquist frequency, $ f_s > 2B $

it can be exactly reconstructed from its samples.



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BSEE 2004, current Ph.D. student researching signal and image processing.

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