cyclic_cross_correlation.m

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function R=cyclic_cross_correlation(x,y,alpha,max_tau)
%
% CYCLIC_CROSS_CORRELATION
%              
%              calculates the cyclic cross correlation between
%              two signals x,y at frequency alpha
%             
%              R(k*alpha,tau)=E{x(t-tau/2)y(t+tau/2)exp(-jk(alpha)t)}
%              for k=0 ... 2*pi/alpha-1
%
% USAGE
%              R=cyclic_cross_correlation(x,y,alpha,max_tau)
%
%              calculate cross correlation up to max_tau time lags

% File: cyclic_cross_correlation.m
% Last Revised: 23/4/98
% Created: 24/11/97
% Author: Andrew C. McCormick
% (C) University of Strathclyde

% Simple error checks
if nargin~=4
  error('Incorrect number of arguments for function cyclic_cross_correlation');
end
if alpha>2*pi
  error('Cyclic frequency must be less than 2 pi in function cyclic_cross_correlation');
end


T=ceil(2*pi/alpha)-1;
lx=length(x);
t=0:lx-1;
R=zeros(max_tau*2+1,T+1);


% Compute even time shift segments
for tau=-max_tau:2:max_tau
  for k=0:T
    R(tau+1+max_tau,k+1)=mean(x(1:lx-max_tau-tau).*y(max_tau+tau+1:lx) ...
	.*exp(-j*k*alpha*t(1+(max_tau+tau)/2:lx-(max_tau+tau)/2)));
  end
end

% Compute odd time shift segments
t=t+0.5;
for tau=-max_tau+1:2:max_tau
  for k=0:T
    R(tau+1+max_tau,k+1)=mean(x(1:lx-tau-max_tau).*y(max_tau+tau+1:lx) ...
	.*exp(-j*k*alpha*t(1+(max_tau+tau-1)/2:lx-(max_tau+tau+1)/2)));
  end
end