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function [sM,sTrain] = som_prototrain(sM, D)
%SOM_PROTOTRAIN Use sequential algorithm to train the Self-Organizing Map.
%
% [sM,sT] = som_prototrain(sM, D)
%
% sM = som_prototrain(sM,D);
%
% Input and output arguments:
% sM (struct) map struct, the trained and updated map is returned
% (matrix) codebook matrix of a self-organizing map
% size munits x dim or msize(1) x ... x msize(k) x dim
% The trained map codebook is returned.
% D (struct) training data; data struct
% (matrix) training data, size dlen x dim
%
% This function is otherwise just like SOM_SEQTRAIN except that
% the implementation of the sequential training algorithm is very
% straightforward (and slower). This should make it easy for you
% to modify the algorithm, if you want to.
%
% For help on input and output parameters, try
% 'type som_prototrain' or check out the help for SOM_SEQTRAIN.
% See also SOM_SEQTRAIN, SOM_BATCHTRAIN.
% Contributed to SOM Toolbox vs2, February 2nd, 2000 by Juha Vesanto
% http://www.cis.hut.fi/projects/somtoolbox/
% Version 2.0beta juuso 080200 130300
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Check input arguments
% map
struct_mode = isstruct(sM);
if struct_mode,
M = sM.codebook;
sTopol = sM.topol;
mask = sM.mask;
msize = sTopol.msize;
neigh = sM.neigh;
else
M = sM; orig_size = size(M);
if ndims(sM) > 2,
si = size(sM); dim = si(end); msize = si(1:end-1);
M = reshape(sM,[prod(msize) dim]);
else
msize = [orig_size(1) 1]; dim = orig_size(2);
end
sM = som_map_struct(dim,'msize',msize); sTopol = sM.topol;
mask = ones(dim,1);
neigh = 'gaussian';
end
[munits dim] = size(M);
% data
if isstruct(D), data_name = D.name; D = D.data;
else data_name = inputname(2);
end
D = D(find(sum(isnan(D),2) < dim),:); % remove empty vectors from the data
[dlen ddim] = size(D); % check input dimension
if dim ~= ddim, error('Map and data input space dimensions disagree.'); end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% initialize (these are default values, change as you will)
% training length
trainlen = 20*dlen; % 20 epochs by default
% neighborhood radius
radius_type = 'linear';
rini = max(msize)/2;
rfin = 1;
% learning rate
alpha_type = 'inv';
alpha_ini = 0.2;
% initialize random number generator
rand('state',sum(100*clock));
% tracking
start = clock; trackstep = 100;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Action
Ud = som_unit_dists(sTopol); % distance between map units on the grid
mu_x_1 = ones(munits,1); % this is used pretty often
for t = 1:trainlen,
%% find BMU
ind = ceil(dlen*rand(1)+eps); % select one vector
x = D(ind,:); % pick it up
known = ~isnan(x); % its known components
Dx = M(:,known) - x(mu_x_1,known); % each map unit minus the vector
dist2 = (Dx.^2)*mask(known); % squared distances
[qerr bmu] = min(dist2); % find BMU
%% neighborhood
switch radius_type, % radius
case 'linear', r = rini+(rfin-rini)*(t-1)/(trainlen-1);
end
if ~r, r=eps; end % zero neighborhood radius may cause div-by-zero error
switch neigh, % neighborhood function
case 'bubble', h = (Ud(:,bmu) <= r);
case 'gaussian', h = exp(-(Ud(:,bmu).^2)/(2*r*r));
case 'cutgauss', h = exp(-(Ud(:,bmu).^2)/(2*r*r)) .* (Ud(:,bmu) <= r);
case 'ep', h = (1 - (Ud(:,bmu).^2)/(r*r)) .* (Ud(:,bmu) <= r);
end
%% learning rate
switch alpha_type,
case 'linear', a = (1-t/trainlen)*alpha_ini;
case 'inv', a = alpha_ini / (1 + 99*(t-1)/(trainlen-1));
case 'power', a = alpha_ini * (0.005/alpha_ini)^((t-1)/trainlen);
end
%% update
M(:,known) = M(:,known) - a*h(:,ones(sum(known),1)).*Dx;
%% tracking
if t==1 | ~rem(t,trackstep),
elap_t = etime(clock,start); tot_t = elap_t*trainlen/t;
fprintf(1,'\rTraining: %3.0f/ %3.0f s',elap_t,tot_t)
end
end; % for t = 1:trainlen
fprintf(1,'\n');
% outputs
sTrain = som_set('som_train','algorithm','proto',...
'data_name',data_name,...
'neigh',neigh,...
'mask',mask,...
'radius_ini',rini,...
'radius_fin',rfin,...
'alpha_ini',alpha_ini,...
'alpha_type',alpha_type,...
'trainlen',trainlen,...
'time',datestr(now,0));
if struct_mode,
sM = som_set(sM,'codebook',M,'mask',mask,'neigh',neigh);
sM.trainhist(end+1) = sTrain;
else
sM = reshape(M,orig_size);
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%