%GENDATP Parzen density data generation
%
% B = GENDATP(A,N,S,G)
% B = A*GENDATP([],N,S,G)
% B = A*GENDATP(N,S,G)
%
% INPUT
% A Dataset
% N Number(s) of points to be generated (optional; default: 50 per class)
% S Smoothing parameter(s)
% (optional; default: a maximum likelihood estimate based on A)
% G Covariance matrix used for generation of the data
% (optional; default: the identity matrix)
%
% OUTPUT
% B Dataset of points generated according to Parzen density
%
% DESCRIPTION
% Generation of a dataset B of N points by using the Parzen estimate of the
% density of A based on a smoothing parameter S. N might be a row/column
% vector with different numbers for each class. Similarly, S might be
% a vector with different smoothing parameters for each class. If S = 0,
% then S is determined by a maximum likelihood estimate using PARZENML.
% If N is a vector, then exactly N(I) objects are generated for the class I.
% G is the covariance matrix to be used for generating the data. G may be
% a 3-dimensional matrix storing separate covariance matrices for each class.
%
% SEE ALSO (<a href="http://37steps.com/prtools">PRTools Guide</a>)
% DATASETS, MAPPINGS, GENDAT, GENDATK
% Copyright: R.P.W. Duin, r.p.w.duin@37steps.com
function B = gendatp(varargin)
argin = shiftargin(varargin,'vector');
argin = setdefaults(argin,[],[],0,[]);
if mapping_task(argin,'definition')
B = define_mapping(argin,'generator','Parzen generation');
return
end
% execution
[A,N,s,G] = deal(argin{:});
if isdataset(A)
Adouble = false;
A = prdataset(A);
A = setlablist(A); % remove empty classes first
else
Adouble = true;
A = prdataset(A,1);
end
[m,k,c] = getsize(A);
p = getprior(A);
if (isempty(N))
N = repmat(50,1,c);
end
if (length(s) == 1)
s = repmat(s,1,c);
end
if (length(s) ~= c)
error('Wrong number of smoothing parameters.')
end
if (isempty(G))
covmat = 0; % covmat indicates whether a covariance matrix should be used
% 0 takes the identity matrix as the covariance matrix
else
covmat = 1;
if (ndims(G) == 2)
G = repmat(G,[1 1 c]);
end
if any(size(G) ~= [k k c])
error('Covariance matrix has a wrong size.')
end
end
N = genclass(N,p);
lablist = getlablist(A);
B = [];
labels = [];
% Loop over classes.
for j=1:c
a = getdata(A,j);
a = prdataset(a);
ma = size(a,1);
if (s(j) == 0) % Estimate the smoothing parameter.
h = parzenml(a);
else
h = s(j);
end
if (~covmat)
b = a(ceil(rand(N(j),1) * ma),:) + randn(N(j),k).*repmat(h,N(j),k);
else
b = a(ceil(rand(N(j),1) * ma),:) + ...
gendatgauss(N(j),zeros(1,k),G(:,:,j)).*repmat(h,N(j),k);
end
B = [B;b];
labels = [labels; repmat(lablist(j,:),N(j),1)];
end
if Adouble
B = +B;
else
B = prdataset(B,labels,'prior',A.prior);
B = set(B,'featlab',getfeatlab(A),'name',getname(A),'featsize',getfeatsize(A));
end
return