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Using the same equation as above in discrete time, <math> X[n] = sin(3/4*n) </math> does not produce a periodic function.
 
Using the same equation as above in discrete time, <math> X[n] = sin(3/4*n) </math> does not produce a periodic function.
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In the graph below, the function seems to be merely a scattering of points and doesn't follow a periodic pattern (due to the irrationality of <math>\pi</math>).
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[[Image:ECE301HW1b_ECE301Fall2008mboutin.JPG]]

Revision as of 08:10, 4 September 2008

Periodic and Non-Periodic Functions

Periodic Functions

A continuous time signal is periodic if there exists a value $ T $ such that $ x(t + T) = x(t) $.

A discrete time signal is periodic if there exists a value $ N $ such that $ X[n + N] = X[n] $.


As you can see in the graph, at time $ t = 0 $, $ x(t) = 0 $. This occurs again at $ t = 4/3\pi $, and again at $ -4/3\pi $.


File:ECE301HW1.JPG ECE301Fall2008mboutin


Non-Periodic Functions

Using the same equation as above in discrete time, $ X[n] = sin(3/4*n) $ does not produce a periodic function.

In the graph below, the function seems to be merely a scattering of points and doesn't follow a periodic pattern (due to the irrationality of $ \pi $).


ECE301HW1b ECE301Fall2008mboutin.JPG

Alumni Liaison

Sees the importance of signal filtering in medical imaging

Dhruv Lamba, BSEE2010