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| R2012a Documentation → Signal Processing Toolbox | |
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k = poly2rc(a)
[k,r0] = poly2rc(a,efinal)
k = poly2rc(a) converts the prediction filter polynomial a to the reflection coefficients of the corresponding lattice structure. a can be real or complex, and a(1) cannot be 0. If a(1) is not equal to 1, poly2rc normalizes the prediction filter polynomial by a(1). k is a row vector of size length(a)-1.
[k,r0] = poly2rc(a,efinal) returns the zero-lag autocorrelation, r0, based on the final prediction error, efinal.
A simple, fast way to check if a has all of its roots inside the unit circle is to check if each of the elements of k has magnitude less than 1.
stable = all(abs(poly2rc(a))<1)
a = [1.0000 0.6149 0.9899 0.0000 0.0031 -0.0082]; efinal = 0.2; [k,r0] = poly2rc(a,efinal)
If abs(k(i)) == 1 for any i, finding the reflection coefficients is an ill-conditioned problem. poly2rc returns some NaNs and provide a warning message in this case.
poly2rc implements this recursive relationship:
This relationship is based on Levinson's recursion [1]. To implement it, poly2rc loops through a in reverse order after discarding its first element. For each loop iteration i, the function:
Applies the second relationship above to elements 1 through i of the vector a.
a = (a-k(i)*fliplr(a))/(1-k(i)^2);
[1] Kay, S.M. Modern Spectral Estimation, Englewood Cliffs, NJ, Prentice-Hall, 1988.
ac2rc | latc2tf | latcfilt | poly2ac | rc2poly | tf2latc
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