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In total, we need N*N=64 times of complex multiplications and N*(N-1)=56 times of complex additions.
 
In total, we need N*N=64 times of complex multiplications and N*(N-1)=56 times of complex additions.
  
In decimation-in-time FFT algorithm, we keep on decimating the number of points by 2 until we get 2 points DFT. At most, we can decimate <math>v=log2N</math> times. As a result, we get v levels of DFT. For each level, we need N/2 times of complex multiplications and N times of complex additions.  
+
In decimation-in-time FFT algorithm, we keep on decimating the number of points by 2 until we get 2 points DFT. At most, we can decimate <math>v=log_2 N</math> times. As a result, we get v levels of DFT. For each level, we need N/2 times of complex multiplications and N times of complex additions.  
  
In total, we need <math>\frac{N}{2}log2N=12</math>N times of complex multiplications and <math>Nlog2N=24</math> times of complex additions.
+
In total, we need <math>\frac{N}{2}log_2 N=12</math>N times of complex multiplications and <math>Nlog_2 N=24</math> times of complex additions.
  
 
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Revision as of 12:08, 19 October 2010

Homework 6 Solution

Q1.

Matlab code:

MCode HW6 Q1.jpg

Assign the value of parameters and then call the function signalDFT

For example, in case 6 type following command in the command window of Matlab:

N=20;

w1=0.62831853;

k=0.2;

w2=0.79168135;

[x,X]=signal(w1,w2,k,N);

Plot result:

case 1: HW6 Q1 Case1.jpg

case 2: HW6 Q1 Case2.jpg

case 3: HW6 Q1 Case3.jpg

case 4: HW6 Q1 Case4.jpg

case 5: HW6 Q1 Case5.jpg

case 6: HW6 Q1 Case6.jpg


Q2.

Recall the definition of DFT: $ X[k]=\sum_{n=0}^{N-1} x[n]e^{-j2\pi k/N} $

In this question N=8

If we use summation formula to compute DFT, for each k, we need N times complex multiplications and N times complex additions.

In total, we need N*N=64 times of complex multiplications and N*(N-1)=56 times of complex additions.

In decimation-in-time FFT algorithm, we keep on decimating the number of points by 2 until we get 2 points DFT. At most, we can decimate $ v=log_2 N $ times. As a result, we get v levels of DFT. For each level, we need N/2 times of complex multiplications and N times of complex additions.

In total, we need $ \frac{N}{2}log_2 N=12 $N times of complex multiplications and $ Nlog_2 N=24 $ times of complex additions.


Q3.



Q4.



Q5.



Q6.



Q7.



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

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