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spm_DEM_embed.m
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spm_DEM_embed.m
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function [y] = spm_DEM_embed(Y,n,t,dt,d)
% temporal embedding into derivatives
% FORMAT [y] = spm_DEM_embed(Y,n,t,dt,d)
%__________________________________________________________________________
% Y - (v x N) matrix of v time-series of length N
% n - order of temporal embedding
% t - time {bins} at which to evaluate derivatives (starting at t = 1)
% dt - sampling interval {secs} [default = 1]
% d - delay (bins) for each row of Y
%
% y - {n,1}(v x 1) temporal derivatives y[:] <- E*Y(t)
%==========================================================================
% Copyright (C) 2008 Wellcome Trust Centre for Neuroimaging
% Karl Friston
% $Id: spm_DEM_embed.m 3695 2010-01-22 14:18:14Z karl $
% defaults
%--------------------------------------------------------------------------
if nargin < 4, dt = 1; end
if nargin < 5, d = 0; end
% get dimensions
%--------------------------------------------------------------------------
[q N] = size(Y);
y = cell(n,1);
[y{:}] = deal(sparse(q,1));
% return if ~q
%--------------------------------------------------------------------------
if ~q, return, end
% loop over channels
%--------------------------------------------------------------------------
for p = 1:length(d)
% boundary conditions
%----------------------------------------------------------------------
s = (t - d(p))/dt;
k = [1:n] + fix(s - (n + 1)/2);
x = s - min(k) + 1;
i = k < 1;
k = k.*~i + i;
i = k > N;
k = k.*~i + i*N;
% Inverse embedding operator (T): cf, Taylor expansion Y(t) <- T*y[:]
%----------------------------------------------------------------------
for i = 1:n
for j = 1:n
T(i,j) = ((i - x)*dt)^(j - 1)/prod(1:(j - 1));
end
end
% embedding operator: y[:] <- E*Y(t)
%----------------------------------------------------------------------
E = inv(T);
% embed
%----------------------------------------------------------------------
if length(d) == q
for i = 1:n
y{i}(p,:) = Y(p,k)*E(i,:)';
end
else
for i = 1:n
y{i} = Y(:,k)*E(i,:)';
end
return
end
end