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hmmpred.m
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hmmpred.m
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function [responseY,responseR,Gamma,explained_var] = ...
hmmpred(X,T,hmm,Gamma,residuals,actstates,grouping)
%
% Predictive distribution of the response and error on potentially unseen data
% useful for cross-validation routines; that is, this function returns the
% mean predicted signal according to the HMM observation parameters
%
% X observations
% T Number of time points for each time series
% hmm hmm data structure
% Gamma probability of current state cond. on data -
% inference is run for time points with Gamma=NaN.
% (It needs to have the same size of the state time courses as
% would be inferred by hmmmar - no. of time points by states).
% residuals in case we train on residuals, the value of those.
% actstates Kx1 vector indicating which states were effectively used in the training,
% Gamma is assumed to have as many columns as initial states
% were specified, so that sum(actstates)<=size(Gamma,2).
% The default is ones(K,1)
%
% responseY mean of the predictive response
% responseR mean of the predictive response for the residuals. This is
% equal to responseY unless a global (state-independent) model is
% specified (which is not a default option).
% Gamma estimated probability of current state cond. on data
%
% Author: Diego Vidaurre, OHBA, University of Oxford
% to fix potential compatibility issues with previous versions
hmm = versCompatibilityFix(hmm);
if nargin<7 || isempty(grouping)
if isfield(hmm.train,'grouping')
grouping = hmm.train.grouping;
else
grouping = ones(length(T),1);
end
if size(grouping,1)==1, grouping = grouping'; end
end
hmm.train.grouping = grouping;
K = hmm.K; ndim = size(X,2);
train = hmm.train;
[orders,order] = formorders(train.order,train.orderoffset,train.timelag,train.exptimelag);
if nargin<5 || isempty(residuals)
train.Sind = formindexes(orders,train.S) == 1;
[residuals,Wgl] = getresiduals(X,T,train.S,train.maxorder,train.order,...
train.orderoffset,train.timelag,train.exptimelag,train.zeromean);
else
Wgl = zeros(length(orders)*ndim+(~hmm.train.zeromean),ndim);
end
if nargin<6
actstates = ones(hmm.K,1);
end
if K<length(actstates) % populate hmm with empty states up to K
hmm2 = hmm; hmm2 = rmfield(hmm2,'state');
acstates1 = find(actstates==1);
if strcmp(train.covtype,'diag') || strcmp(train.covtype,'full')
omegashape = 0;
if strcmp(train.covtype,'diag'), omegarate = zeros(1,ndim);
else omegarate = zeros(ndim); end
for k=1:K
omegashape = omegashape + hmm.state(k).Omega.Gam_shape / K;
omegarate = omegarate + hmm.state(k).Omega.Gam_rate / K;
end
if strcmp(train.covtype,'diag'), iomegarate = omegarate.^(-1);
else iomegarate = inv(omegarate); end
end
W = zeros((~train.zeromean)+ndim*length(orders),ndim);
S_W = zeros(ndim,(~train.zeromean)+ndim*length(orders),(~train.zeromean)+ndim*length(orders));
for k=1:length(actstates)
if actstates(k)==1
hmm2.state(k) = struct('Omega',hmm.state(acstates1==k).Omega,'W',hmm.state(acstates1==k).W);
else
hmm2.state(k) = struct('Omega',struct('Gam_shape',omegashape,'Gam_rate',omegarate,'Gam_irate',iomegarate),...
'W',struct('Mu_W',W,'S_W',S_W));
end
end
K = length(actstates);
hmm = hmm2; clear hmm2;
else
acstates1 = 1:K;
end
if any(isnan(Gamma))
data.X = X; data.C = [];
for n = 1:length(T)
if n==1, s0 = 0; else s0 = sum(T(1:n-1)) - order*(n-1); end
data.C = [data.C; NaN(order,K); Gamma(s0+1:s0+T(n)-order,:)];
end
Gamma = hsinference(data,T,hmm,residuals);
end
setxx; % build XX
responseR = zeros(size(XX,1), ndim);
responseY = zeros(size(XX,1), ndim);
for k = 1:K
W = hmm.state(k).W.Mu_W;
if actstates(k)
responseR = responseR + repmat(Gamma(:,acstates1==k),1,ndim) .* (XX * W);
end
if isempty(Wgl)
responseY = responseR;
else
responseY = responseR + XX * Wgl;
end
end
explained_var = 1 - sum((responseY - residuals).^2) ./ sum((residuals - mean(residuals)).^2);
end