问题
I have a pair of 1D arrays (of different lengths) like the following:
data1 = [0,0,0,1,1,1,0,1,0,0,1]
data2 = [0,1,1,0,1,0,0,1]
I would like to get the max cross correlation of the 2 series in python. In matlab, the xcorr() function will return it OK
I have tried the following 2 methods:
numpy.correlate(data1, data2)signal.fftconvolve(data2, data1[::-1], mode='full')
Both methods give me the same values, but the values I get from python are different from what comes out of matlab. Python gives me integers values > 1, whereas matlab gives actual correlation values between 0 and 1.
I have tried normalizing the 2 arrays first (value-mean/SD), but the cross correlation values I get are in the thousands which doesnt seem correct.
Matlab will also give you a lag value at which the cross correlation is the greatest. I assume it is easy to do this using indices but whats the most appropriate way of doing this if my arrays contain 10's of thousands of values?
I would like to mimic the xcorr() function that matlab has, any thoughts on how I would do that in python?
回答1:
numpy.correlate(arr1,arr2,"full")
gave me same output as
xcorr(arr1,arr2)
gives in matlab
回答2:
This code will help in finding the delay between two channels in audio file
xin, fs = sf.read('recording1.wav')
frame_len = int(fs*5*1e-3)
dim_x =xin.shape
M = dim_x[0] # No. of rows
N= dim_x[1] # No. of col
sample_lim = frame_len*100
tau = [0]
M_lim = 20000 # for testing as processing takes time
for i in range(1,N):
c = np.correlate(xin[0:M_lim,0],xin[0:M_lim,i],"full")
maxlags = M_lim-1
c = c[M_lim -1 -maxlags: M_lim + maxlags]
Rmax_pos = np.argmax(c)
pos = Rmax_pos-M_lim+1
tau.append(pos)
print(tau)
来源:https://stackoverflow.com/questions/25830840/python-cross-correlation