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*[[Signals and systems|Signals and Systems]] |
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*[[Signals and systems|Signals and Systems]] |
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==An Introduction to the Fourier Transform== |
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==An Introduction to the Fourier Transform== |
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[[Image:transformer_roolbar.jpg]] |
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Unfortunately, the Fourier Transform isn't a Transformer. If it was, you would have seen it in the movie that came out lately. [[Image:transformer_roolbar.jpg]] |
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A Fourier Transform is a representation of a function using a large number of sinusoids added together to create it. |
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A Fourier Transform is a representation of a function using a large number of sinusoids added together to create it. |
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3.If I've got one, what can I do with it? |
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3.If I've got one, what can I do with it? |
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Unfortunately, the Fourier Transform isn't a Transformer. If it was, you would have seen it in the movie that came out lately. Even if |
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it was a transformer, I bet it would look like a stately old English professor instead of a metal beast, since it always follows the rules. |
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One way to explain a Fourier Transform is to say it's a bunch of sinusoids added to create a just about any function you want. Another way to describe it is to say it's a way of representing a function in the frequency domain instead of the time domain. |
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One way to explain a Fourier Transform is to say it's a bunch of sinusoids added to create a just about any function you want. Another way to describe it is to say it's a way of representing a function in the frequency domain instead of the time domain. |
Revision as of 18:44, 8 October 2007
An Introduction to the Fourier Transform
Unfortunately, the Fourier Transform isn't a Transformer. If it was, you would have seen it in the movie that came out lately.
A Fourier Transform is a representation of a function using a large number of sinusoids added together to create it.
For example, a square wave could be represented by:
That's alot of numbers seemingly out of the blue, at first observance. I bet your questions are:
1. What is a Fourier Transform?
2.How do I get one?
3.If I've got one, what can I do with it?
One way to explain a Fourier Transform is to say it's a bunch of sinusoids added to create a just about any function you want. Another way to describe it is to say it's a way of representing a function in the frequency domain instead of the time domain.
X(f)=\int_{-\infty}^{\infty} x(t) e^{-j2\pi ft}\, dt
</math>
Suppose that we have some function, say , that is nonperiodic and finite in duration.
This means that for some
Now let's make a periodic function
by repeating
with a fundamental period
.
Note that
The Fourier Series representation of is
where
and
can now be rewritten as
From our initial identity then, we can write as
and
becomes
Now remember that
and
Which means that
Which is just to say that
So we have that
Further
Some Useful Fourier Transform Pairs
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Some other usefull pairs can be found here: Fourier Transforms
A Second Approach to Fourier Transforms