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[[Category:ECE301Spring2013JVK]] [[Category:ECE]] [[Category:ECE301]] [[Category:signalandsystems]] [[Category:problem solving]]
 
[[Category:ECE301Spring2013JVK]] [[Category:ECE]] [[Category:ECE301]] [[Category:signalandsystems]] [[Category:problem solving]]
 
[[Category:Impulse Response]]
 
[[Category:Impulse Response]]
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'''1.Impulse response'''
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Joseph Fourier first represented  Fourier integral theorem in the following DOE:
 
Joseph Fourier first represented  Fourier integral theorem in the following DOE:
 +
 
[[Image:DOE1.jpg]][1]
 
[[Image:DOE1.jpg]][1]
 
Which is then introduced into the first delta function as following:
 
Which is then introduced into the first delta function as following:
 +
 
[[Image:DOE2.jpg]][1]
 
[[Image:DOE2.jpg]][1]
 
And the end end up with what mathematicians called Dirac delta function:
 
And the end end up with what mathematicians called Dirac delta function:
 +
 
[[Image:DOE3.jpg]] [1]
 
[[Image:DOE3.jpg]] [1]
 
[[Category:Fourier series]]
 
[[Category:Fourier series]]
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'''2.Fourier series'''
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The input x(t) is a function with a fundamental period x(t)= 1 from x= 0 to 1 and f(x)= -1 to 0, with a discontinuity at x=0.
 
The input x(t) is a function with a fundamental period x(t)= 1 from x= 0 to 1 and f(x)= -1 to 0, with a discontinuity at x=0.
 
The following graphs from matlab represents  Gibbs phenomena, as n increases the overshot decreases.
 
The following graphs from matlab represents  Gibbs phenomena, as n increases the overshot decreases.
 +
 
[[Image:n=25.jpg]]
 
[[Image:n=25.jpg]]
 
[[Image:n=50.jpg]]
 
[[Image:n=50.jpg]]
 
[[Image:n=100.jpg]]
 
[[Image:n=100.jpg]]
 
[[Category:FFT]]
 
[[Category:FFT]]
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'''3.Filters'''
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The upper is the  Gaussian filter, while bottom is the unsharp.
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[[Image:figrelena.jpg]]
 
[[Image:figrelena.jpg]]
 
[[ECE301bonus2|Back to the 2nd bonus point opportunity, ECE301 Spring 2013]]
 
[[ECE301bonus2|Back to the 2nd bonus point opportunity, ECE301 Spring 2013]]

Revision as of 10:26, 11 March 2013

1.Impulse response

Joseph Fourier first represented Fourier integral theorem in the following DOE:

DOE1.jpg[1] Which is then introduced into the first delta function as following:

DOE2.jpg[1] And the end end up with what mathematicians called Dirac delta function:

DOE3.jpg [1] 2.Fourier series

The input x(t) is a function with a fundamental period x(t)= 1 from x= 0 to 1 and f(x)= -1 to 0, with a discontinuity at x=0. The following graphs from matlab represents Gibbs phenomena, as n increases the overshot decreases.

N=25.jpg N=50.jpg N=100.jpg 3.Filters

The upper is the Gaussian filter, while bottom is the unsharp.

Figrelena.jpg Back to the 2nd bonus point opportunity, ECE301 Spring 2013

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