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- function model = arow_train(X,Y,model)
- % AROW_TRAIN Adaptive Regularization Of Weights algorithm
- %
- % MODEL = AROW_TRAIN(X,Y,MODEL) trains an classifier according to the
- % Adaptive Regularization Of Weights algorithm.
- %
- % Additional parameters:
- % - model.r is the learning rate parameter.
- % Default value is 1.
- %
- % References:
- % - Crammer, K., Kulesza, A., & Dredze, M. (2009)
- % Adaptive Regularization Of Weight Vectors.
- % Advances in Neural Information Processing Systems
-
- % This file is part of the DOGMA library for Matlab.
- % Copyright (C) 2009-2011, Francesco Orabona
- %
- % This program is free software: you can redistribute it and/or modify
- % it under the terms of the GNU General Public License as published by
- % the Free Software Foundation, either version 3 of the License, or
- % (at your option) any later version.
- %
- % This program is distributed in the hope that it will be useful,
- % but WITHOUT ANY WARRANTY; without even the implied warranty of
- % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- % GNU General Public License for more details.
- %
- % You should have received a copy of the GNU General Public License
- % along with this program. If not, see <http://www.gnu.org/licenses/>.
- %
- % Contact the author: francesco [at] orabona.com
-
- n = length(Y); % number of training samples
-
- if isfield(model,'iter')==0
- model.iter = 0;
- model.w = zeros(1,size(X,1));
- model.w2 = zeros(1,size(X,1));
- model.errTot = 0;
- model.numSV = zeros(numel(Y),1);
- model.aer = zeros(numel(Y),1);
- model.pred = zeros(numel(Y),1);
-
- model.KbInv = eye(size(X,1));
- end
-
- if isfield(model,'r')==0
- model.r = 1;
- end
-
- for i=1:n
- model.iter=model.iter+1;
-
- val_f = model.w*X(:,i);
-
- Yi = Y(i);
-
- model.errTot = model.errTot+(sign(val_f)~=Yi);
- model.aer(model.iter) = model.errTot/model.iter;
- model.pred(model.iter) = val_f;
-
- if Yi*val_f<1
- model.S(end+1) = model.iter;
- KbInv_x=model.KbInv*X(:,i);
- chi=X(:,i)'*KbInv_x;
-
- model.w=model.w+(Yi-val_f)/(1+chi)*KbInv_x';
- model.KbInv=model.KbInv-KbInv_x*KbInv_x'/(model.r+chi);
- end
-
- model.numSV(model.iter) = numel(model.S);
-
- if mod(i,model.step)==0
- fprintf('#%.0f SV:%5.2f(%d)\tAER:%5.2f\n', ...
- ceil(i/1000),numel(model.S)/model.iter*100,numel(model.S),model.aer(model.iter)*100);
- end
- end
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