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author | Daniele Nicolodi <nicolodi@science.unitn.it> |
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date | Mon, 05 Dec 2011 16:20:06 +0100 |
parents | f0afece42f48 |
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% OVERLAPCORR Compute correlation introduced by segment overlapping %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % OVERLAPCORR Compute correlation introduced by segment overlapping in WOSA % spectral estimations. It estimates the term contributing to the variance % because of segment overlapping. % % CALL % % R = utils.math.overlapCorr(w,N,T) % [R,n] = utils.math.overlapCorr(w,N,T) % % INPUT % % - w, window samples, Nsx1 double, Ns must be the effective length of the % segments used for spectral estimation. E.g. For a periodogram Ns is equal % to the length of the data series. For a WOSA estimation Ns is the length % of each averaging segment. % - N total length of data series, 1x1 double % - navs, number of averages, 1x1 double % % REFERENCES % % D. B. Percival and A. T. Walden, Spectral Analysis for Physical % Applications (Cambridge University Press, Cambridge, 1993) p 292. % % L Ferraioli 09-03-2011 % % $Id: overlapCorr.m,v 1.1 2011/03/28 16:37:23 luigi Exp $ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function varargout = overlapCorr(w,N,navs) Ns = numel(w); % willing to work with columns [nn,mm] = size(w); if nn<mm w = w.'; end % make suaqre integrable a = sqrt(sum(w.^2)); w = w./a; n = floor((N-Ns)/(navs-1)); win = [w; zeros((navs-1)*n,1)]; R = 0; for kk=1:navs-1 ew = zeros(size(win)); ew(kk*n+1:kk*n+Ns) = win(1:Ns); R = R + (navs-kk)*abs(win.'*ew)^2; end R = R./navs^2; if nargout == 1 varargout{1} = R; else varargout{1} = R; varargout{2} = n; end end