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[[Category:2010 Fall ECE 438 Boutin]]
 
[[Category:2010 Fall ECE 438 Boutin]]
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[[Category:Problem_solving]]
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[[Category:ECE438]]
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[[Category:digital signal processing]]
  
<span style="color:green"> Now I am working on making pages of solutions. Thus, some of the solutions are not available right now. Those will be completed tonight!</span> -[[User:han83|Jaemin]]
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<span style="color:green"> Any comments and questions are welcome! </span> -[[User:han83|Jaemin]]
  
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== Quiz Questions Pool for Week 5 ==
 
== Quiz Questions Pool for Week 5 ==
 
 
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<math>\text{1.  Find inverse Z-transform of } \frac{1}{1-az^{-1}} \text{ where } |z|<|a|. \,\!</math>
 
<math>\text{1.  Find inverse Z-transform of } \frac{1}{1-az^{-1}} \text{ where } |z|<|a|. \,\!</math>
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<math>\text{2.  Find inverse Z-transform of } \frac{3z^{-3}}{1-az^{-1}} \text{ where } |z|<|a|. \,\!</math>
 
<math>\text{2.  Find inverse Z-transform of } \frac{3z^{-3}}{1-az^{-1}} \text{ where } |z|<|a|. \,\!</math>
* If you use the time-shifting property of z-transform, it can be easily solved. See the details [[ECE438_Week5_Quiz_Q2sol|here]].
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* If you use the time-shifting property of Z-transform, it can be easily solved. See the details [[ECE438_Week5_Quiz_Q2sol|here]].
 
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<math>\text{3.  Compute the Fourier series coefficients of the following signal:} \,\!</math>
 
<math>\text{3.  Compute the Fourier series coefficients of the following signal:} \,\!</math>
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<math>\text{6.    Suppose the sampling rate is }2000\text{Hz. Upsample the signal by a factor of }2\text{.} \,\!</math>
 
<math>\text{6.    Suppose the sampling rate is }2000\text{Hz. Upsample the signal by a factor of }2\text{.} \,\!</math>
     <math>\text{In order to get rid of aliases, what is the cutoff frequency in hertz of LPF(Low-Pass Filter)?}\,\!</math>
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     <math>\text{In order to get rid of aliases, what is the cutoff frequency of digital LPF(Low-Pass Filter)?}\,\!</math>
 
* See the solution [[ECE438_Week5_Quiz_Q56sol|here]].
 
* See the solution [[ECE438_Week5_Quiz_Q56sol|here]].
 
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Back to [[ECE438_Lab_Fall_2010|Lab Wiki Page]]
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Back to [[ECE438_Lab_Fall_2010|ECE 438 Fall 2010 Lab Wiki Page]]
  
 
Back to [[2010_Fall_ECE_438_Boutin|ECE 438 Fall 2010]]
 
Back to [[2010_Fall_ECE_438_Boutin|ECE 438 Fall 2010]]

Latest revision as of 09:39, 11 November 2011


Any comments and questions are welcome! -Jaemin


Quiz Questions Pool for Week 5


$ \text{1. Find inverse Z-transform of } \frac{1}{1-az^{-1}} \text{ where } |z|<|a|. \,\! $


$ \text{2. Find inverse Z-transform of } \frac{3z^{-3}}{1-az^{-1}} \text{ where } |z|<|a|. \,\! $

  • If you use the time-shifting property of Z-transform, it can be easily solved. See the details here.

$ \text{3. Compute the Fourier series coefficients of the following signal:} \,\! $

   $ x(t)=\left\{\begin{array}{ll}1&\text{ when } 0\leq t <1 \\ 0& \text{ when } 1\leq t <2\end{array} \right. \text{ and is periodic with the period of two.} $
  • This was from one of the exercises. See the solution here.

$ \text{4. The rational Z-transform }H(z)\text{ has zero at } z_1=j\text{, and pole at }p_1=2, \,\! $

   $ \text{which is expressed as }H(z)=\frac{z-z_1}{z-p_1}\text{. Compute the magnitude of }H(e^{jw})\text{ at }w_1=\frac{\pi}{2}, w_2=-\frac{\pi}{2} \,\! $
  • See the solution here.

$ \text{Let } x(t)= \text{cos} 1000 \pi t + \text{sin} 1500 \pi t. \,\! $

$ \text{5. What is the Nyquist frequency of the signal } x(t)? \,\! $

$ \text{6. Suppose the sampling rate is }2000\text{Hz. Upsample the signal by a factor of }2\text{.} \,\! $

   $ \text{In order to get rid of aliases, what is the cutoff frequency of digital LPF(Low-Pass Filter)?}\,\! $
  • See the solution here.

Back to ECE 438 Fall 2010 Lab Wiki Page

Back to ECE 438 Fall 2010

Alumni Liaison

Ph.D. on Applied Mathematics in Aug 2007. Involved on applications of image super-resolution to electron microscopy

Francisco Blanco-Silva