HW11 Aliasing Example: Difference between revisions

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sample = 1.4;
sample = 1.4;


T = 1/sample %period;
T = 1/sample %period


t = 0:0.01:3.14; %graph accuracy to .01;
t = 0:0.01:3.14; %graph accuracy to .01


signal = cos(2*pi*t); %original signal;
signal = cos(2*pi*t); %original signal


ts = 0:T:3.14;
ts = 0:T:3.14;
Line 25: Line 25:
reconstructed = cos(2*pi*(frequency-sample)*t);
reconstructed = cos(2*pi*(frequency-sample)*t);


plot(t, signal, 'g', ts, sampledpoints, 'p',t, reconstructed, 'b');
plot(t, signal, 'g', ts, sampledpoints, 'p',t, reconstructed, 'b')


legend('Original Signal', 'Sampled Points', 'Reconstructed Signal');
legend('Original Signal', 'Sampled Points', 'Reconstructed Signal')


xlabel('Time');
xlabel('Time')


ylabel('Amplitude');
ylabel('Amplitude')


title('Aliasing Example');
title('Aliasing Example')
So it has the same shape, but as you can see the frequency is alot lower than the original. Basically what not sampling enough does is that it recognizes multiple frequencies as the same frequency, so you lose crucial details in the reproduction of a sound.
So it has the same shape, but as you can see the frequency is alot lower than the original. Basically what not sampling enough does is that it recognizes multiple frequencies as the same frequency, so you lose crucial details in the reproduction of a sound.

Revision as of 14:47, 30 November 2007

Aliasing - This is when you're sampling a function, but you don't sample often enough to reconstruct the waveform as it was before.

How often is often enough? Well, the Nyquist-Shannon sampling thereom says twice as much as the highest frequency. To be exact, the theorem states: "Exact reconstruction of a continuous-time baseband signal from its samples is possible if the signal is bandlimited and the sampling frequency is greater than twice the signal bandwidth."

So what happens when you sample as the Nyquist-Shannon thereom suggests, and what happens if you dont? I hate Matlab, but in the self-sacrificing spirit I have towards you, my dear reader, I will use everything in my power including Matlab to clarify things. Hence:

Sally1.jpg

Octave Script:

frequency = 1;

sample = 1.4;

T = 1/sample %period

t = 0:0.01:3.14; %graph accuracy to .01

signal = cos(2*pi*t); %original signal

ts = 0:T:3.14;

sampledpoints = cos(2*pi*frequency*ts);

reconstructed = cos(2*pi*(frequency-sample)*t);

plot(t, signal, 'g', ts, sampledpoints, 'p',t, reconstructed, 'b')

legend('Original Signal', 'Sampled Points', 'Reconstructed Signal')

xlabel('Time')

ylabel('Amplitude')

title('Aliasing Example')

So it has the same shape, but as you can see the frequency is alot lower than the original. Basically what not sampling enough does is that it recognizes multiple frequencies as the same frequency, so you lose crucial details in the reproduction of a sound.