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Homework 6, ECE438, Fall 2015, Prof. Boutin
Hard copy due in class, Wednesday October 8, 2015.
Question 1
Questions 1
Compute the DFT of the following signals x[n] (if possible). How does your answer relate to the Fourier series coefficients of x[n]?
a) $ x[n] = \left\{ \begin{array}{ll} 1, & n \text{ multiple of } N\\ 0, & \text{ else}. \end{array} \right. $
b) $ x[n]= e^{j \frac{2}{5} \pi n}; $
c) $ x[n]= e^{-j \frac{2}{5} \pi n}; $
d) $ x[n]= e^{j \frac{2}{\sqrt{3}} \pi n}; $
e) $ x[n]= \cos\left( \frac{2}{1000} \pi n\right) ; $
f) $ x_2[n]= e^{j \frac{\pi}{3} n } \cos ( \frac{\pi}{6} n ) $
g) $ x_8[n]= (-j)^n . $
h) $ x_3[n] =(\frac{1}{\sqrt{2}}+j \frac{1}{\sqrt{2}})^n $
Note: All of these DFTs are VERY simple to compute. If your computation looks like a monster, please find a simpler approach!
Question 2
Compute the inverse DFT of $ X[k]= e^{j \pi k }+e^{-j \frac{\pi}{2} k} $.
Note: Again, this is a VERY simple problem. Have pity for your grader, and try to use a simple approach!
Question 3
Prove the time shifting property of the DFT.
Hand in a hard copy of your solutions. Pay attention to rigor!
Presentation Guidelines
- Write only on one side of the paper.
- Use a "clean" sheet of paper (e.g., not torn out of a spiral book).
- Staple the pages together.
- Include a cover page.
- Do not let your dog play with your homework.
Discussion
- Write question/comment here.
- answer will go here