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annotate toolboxes/FullBNT-1.0.7/netlab3.3/rbfevfwd.m @ 0:cc4b1211e677 tip

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initial commit to HG from Changeset: 646 (e263d8a21543) added further path and more save "camirversion.m"
author Daniel Wolff
date Fri, 19 Aug 2016 13:07:06 +0200
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Daniel@0 1 function [y, extra, invhess] = rbfevfwd(net, x, t, x_test, invhess)
Daniel@0 2 %RBFEVFWD Forward propagation with evidence for RBF
Daniel@0 3 %
Daniel@0 4 % Description
Daniel@0 5 % Y = RBFEVFWD(NET, X, T, X_TEST) takes a network data structure NET
Daniel@0 6 % together with the input X and target T training data and input test
Daniel@0 7 % data X_TEST. It returns the normal forward propagation through the
Daniel@0 8 % network Y together with a matrix EXTRA which consists of error bars
Daniel@0 9 % (variance) for a regression problem or moderated outputs for a
Daniel@0 10 % classification problem.
Daniel@0 11 %
Daniel@0 12 % The optional argument (and return value) INVHESS is the inverse of
Daniel@0 13 % the network Hessian computed on the training data inputs and targets.
Daniel@0 14 % Passing it in avoids recomputing it, which can be a significant
Daniel@0 15 % saving for large training sets.
Daniel@0 16 %
Daniel@0 17 % See also
Daniel@0 18 % FEVBAYES
Daniel@0 19 %
Daniel@0 20
Daniel@0 21 % Copyright (c) Ian T Nabney (1996-2001)
Daniel@0 22
Daniel@0 23 y = rbffwd(net, x_test);
Daniel@0 24 % RBF outputs must be linear, so just pass them twice (second copy is
Daniel@0 25 % not used
Daniel@0 26 if nargin == 4
Daniel@0 27 [extra, invhess] = fevbayes(net, y, y, x, t, x_test);
Daniel@0 28 else
Daniel@0 29 [extra, invhess] = fevbayes(net, y, y, x, t, x_test, invhess);
Daniel@0 30 end