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So the xcov(signal) should compute the autocorrelation of a signal. Imagine I have two signals, s1, s2 as followed:

s1: it has 100 points of signals, followed by 300 points of zeros. s2: it has 200 points of the same signal as s1, followed by 600 points of zeros.

Since autocorrelation just computes the convolution of s(t) and s(t-tau), then shouldn't autocorrelation of both signals, be a signal with 200 points in the middle, followed by a bunch of zeros on both sides? i.e.

xcov(s1): 300 zeros, followed by 200 points of the autocorrelation, followed by another 300 zeros. xcov(s2): 600 zeros, followed by 200 points of the autocorrelation, followed by another 600 zeros.

If not, what am I not understanding here? If so, then this is not the case in matlab! If you increase the number of proceeding zeros, while the shape of the autocorrelation does not change, the number of lags where the result is non-zero also increases.


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And what do you get for xcov(s1) and xcov(s2)? –  Eitan T Jun 5 '12 at 18:26
why not use xcorr and do the actual cross correlation? If you just give it one array (instead of two) it does the autocorrelation. xcov removes the mean. –  Keegan Keplinger Jun 5 '12 at 18:39

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