view toolboxes/FullBNT-1.0.7/netlab3.3/glmfwd.m @ 0:e9a9cd732c1e tip

first hg version after svn
author wolffd
date Tue, 10 Feb 2015 15:05:51 +0000
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function [y, a] = glmfwd(net, x)
%GLMFWD	Forward propagation through generalized linear model.
%
%	Description
%	Y = GLMFWD(NET, X) takes a generalized linear model data structure
%	NET together with a matrix X of input vectors, and forward propagates
%	the inputs through the network to generate a matrix Y of output
%	vectors. Each row of X corresponds to one input vector and each row
%	of Y corresponds to one output vector.
%
%	[Y, A] = GLMFWD(NET, X) also returns a matrix A  giving the summed
%	inputs to each output unit, where each row corresponds to one
%	pattern.
%
%	See also
%	GLM, GLMPAK, GLMUNPAK, GLMERR, GLMGRAD
%

%	Copyright (c) Ian T Nabney (1996-2001)

% Check arguments for consistency
errstring = consist(net, 'glm', x);
if ~isempty(errstring);
  error(errstring);
end

ndata = size(x, 1);

a = x*net.w1 + ones(ndata, 1)*net.b1;

switch net.outfn

  case 'linear'     % Linear outputs
    y = a;

  case 'logistic'   % Logistic outputs
    % Prevent overflow and underflow: use same bounds as glmerr
    % Ensure that log(1-y) is computable: need exp(a) > eps
    maxcut = -log(eps);
    % Ensure that log(y) is computable
    mincut = -log(1/realmin - 1);
    a = min(a, maxcut);
    a = max(a, mincut);
    y = 1./(1 + exp(-a));

  case 'softmax'   	% Softmax outputs
    nout = size(a,2);
    % Prevent overflow and underflow: use same bounds as glmerr
    % Ensure that sum(exp(a), 2) does not overflow
    maxcut = log(realmax) - log(nout);
    % Ensure that exp(a) > 0
    mincut = log(realmin);
    a = min(a, maxcut);
    a = max(a, mincut);
    temp = exp(a);
    y = temp./(sum(temp, 2)*ones(1,nout));
    % Ensure that log(y) is computable
    y(y<realmin) = realmin;

  otherwise
    error(['Unknown activation function ', net.outfn]);
end