(Solutions)
(Problems)
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Read the discussion page using the discussion tab above. (Aung - 11:09 pm 07/18/08
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==Problems==
 
==Problems==
 
1)a)If a discrete time singal x[n] is periodic with period N, then the Fourier series coefficients <math>a_k</math> of the signal x[n] is also periodic with period N. For the periodic signal x[n], find the values of <math>a_0,a_1,...,a_{N-1}.</math>  Express your answer in a + jb form.  
 
1)a)If a discrete time singal x[n] is periodic with period N, then the Fourier series coefficients <math>a_k</math> of the signal x[n] is also periodic with period N. For the periodic signal x[n], find the values of <math>a_0,a_1,...,a_{N-1}.</math>  Express your answer in a + jb form.  

Revision as of 23:10, 18 July 2008

Read the discussion page using the discussion tab above. (Aung - 11:09 pm 07/18/08


Problems

1)a)If a discrete time singal x[n] is periodic with period N, then the Fourier series coefficients $ a_k $ of the signal x[n] is also periodic with period N. For the periodic signal x[n], find the values of $ a_0,a_1,...,a_{N-1}. $ Express your answer in a + jb form.

$ x[n]=1 - 2je^{5+j(3\pi/2*n+\pi/4)} $

1)b)Evaluate the value of $ (1/N)*\sum_{n=<N>}|x[n]|^2 $ for the signal x[n] given in part (a).

2)a)Let's consider a continuous-time periodic signal x(t) with period T = 5 whose non-zero Fourier series coefficients $ a_k $ are given by

$ a_1=a_{-1}=2,a_3=a*_{-3}=4j $

If x(t) is the input to a particular LTI system characterized by the frequency response

$ H(j\omega)=1/(3+j\omega) $

then the output is y(t).

Is the output signal y(t) periodic? Answer YES or NO only.

2)b)If your answer to part (a) is YES, then let $ b_k $ be the fourier series coefficients of y(t) and find the values of $ b_k $. You need not simplify the complex numbers. If your answer to part (a) is NO, then explain why y(t) is not periodic.

Solutions

1)a) Change the equation to look like a forier series. $ x[n]=1-2je^{5+j(3\pi/2*n+\pi/4)}= $ $ x[n]=1 - 2je^{\pi/4}e^{5}e^{j(3\pi/2)*n}= $ $ x[n]=1 + (\sqrt{2}e^{5} - j\sqrt{2}e^5)e^{j(3\pi/2*n)} $

find the period N. $ \omega_0=3\pi/2 $. $ P=2\pi/\omega_0=4/3 $. The LCM of 1 and 4/3 is 12. Therefore N=12

Choose values of $ a_k $ that match the forier series repersentation of x[n]

$ x[n]=\sum_{k=<n>}^{}a_ke^{jk(2\pi/12)n} $

$ a_0=1 $

$ a_9=\sqrt{2}e^{5} - j\sqrt{2}e^5 $

1)b) Some energy therom states that: $ \sum_{n=<N>}|x[n]|^2=N*sum_{k=<N>}|a_k|^2 $

Therefore:

$ (1/N)*\sum_{n=<N>}|x[n]|^2=\sum_{k=<N>}|a_k|^2 $

$ (1/N)*\sum_{n=<N>}|x[n]|^2=1^2+|(-2je^{\pi/4}e^{5})|^2=1 + e^{10} $

$ (1/N)*\sum_{n=<N>}|x[n]|^2=1 + e^{10} $


--Krtownse 15:53, 18 July 2008 (EDT)

2)a) YES

2)b)First thing: state $ a_k $ clearly:

$ a_{-3}=-4j $

$ a_{-1}=2 $

$ a_{1}=2 $

$ a_{3}=4j $


Periodic signals have the fourier transform of $ X(e^{jw})=\sum_{k=-\infty}^{infty}2\pi a_k\delta(\omega-k\omega_0) $

T=5

$ w_0=2\pi/T=2\pi/5 $

y(t)=x(t)*h(t) (convulution)

$ Y(e^{j\omega})=X(e^{j\omega})H(e^{j\omega}) $

$ Y(e^{j\omega})=\sum_{k=-\infty}^{infty}2\pi a_k\delta(\omega-k\omega_0)(1/(3+j/omega)) $

$ Y(e^{j\omega})=\sum_{k=-\infty}^{infty}2\pi a_k(1/(3+jk/omega_0)\delta(\omega-k\omega_0)) $

$ Y(e^{j\omega})=\sum_{k=-\infty}^{infty}2\pi(a_k/(3+jk2/pi/5))\delta(\omega-k\omega_0)) $

notice $ b_k=a_k/(3+jk2/pi/5) $

$ b_{-3}=-4j/(3-j6/pi/5) $

$ b_{-1}=2/(3-j2/pi/5) $

$ b_{1}=2/(3+j2/pi/5) $

$ b_{3}=4j/(3+j6/pi/5 $

$ b_k=0 $ for all other k

--Krtownse 19:55, 18 July 2008 (EDT)

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