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I have two vectors of matching lengths. They are readings from two different sensors (one is from a smartphone and the other is from a wiimote) of the same hand movement. I am trying to find the time offset between them to synchronise the readings for further processing. The readings I get are of the format (Time(ms) Value) for accelerations in the X,Y and Z direction.

For the synchronization, I plotted the cross-correlation function xcorr2() between the two sets. I am getting the same graph (a weird triangle peak and a straight line at the bottom) for Accelerations along the x, y and z directions (which I guess is good) but I don't know how to interpret it. What do the axes in the graph represent?

Can anyone explain to me what xcorr2() means in a qualitative sense. From the correlation function, how do I determine the offset (i.e. how many seconds is sensor1 behind sensor2)?

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is that even a programming question? I think that question would belong to math.stackexchange.com – Sriram Feb 15 '11 at 7:00
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Isn't this qualitative enough mathworks.com/help/toolbox/signal/xcorr2.html ? – eat Feb 15 '11 at 7:39
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Note that xcorr2() deals with a pair of 2-dimensional arrays (most often images of some kind). Your data is 3 streams (x, y and z) of 1-dimensional data. I would think that you want to perform cross-correlation across a pair of these 1-d streams (I don't think it will matter which one you choose). In MATLAB, you can use xcorr(), or program it yourself using corrcoef() or completely from scratch. – Predictor Feb 15 '11 at 16:41
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I concur with the comment made above by Predictor. To align the time series against each-other, I would pick xcorr() without the 2. Consider correlating only the acceleration magnitudes. For example:

a_mag_wii = sqrt(a_x_wii.^2 + a_y_wii.^2 + a_z_wii.^2);
a_mag_phone = sqrt(a_x_phone.^2 + a_y_phone.^2 + a_z_phone.^2);
res = xcorr(a_mag_wiimote, a_mag_smartphone);
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