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view toolboxes/FullBNT-1.0.7/bnt/potentials/@mpot/marginalize_pot.m @ 0:cc4b1211e677 tip
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646 (e263d8a21543) added further path and more save "camirversion.m"
| author | Daniel Wolff |
|---|---|
| date | Fri, 19 Aug 2016 13:07:06 +0200 |
| parents | |
| children |
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function smallpot = marginalize_pot(bigpot, keep, maximize, useC) % MARGINALIZE_POT Marginalize a mpot onto a smaller domain. % smallpot = marginalize_pot(bigpot, keep, maximize, useC) % % The maximize argument is ignored - maxing out a Gaussian is the same as summing it out, % since the mode and mean are equal. % The useC argument is ignored. node_sizes = sparse(1, max(bigpot.domain)); node_sizes(bigpot.domain) = bigpot.sizes; sum_over = mysetdiff(bigpot.domain, keep); [logp, mu, Sigma] = marginalize_gaussian(bigpot.logp, bigpot.mu, bigpot.Sigma, ... keep, sum_over, node_sizes); smallpot = mpot(keep, node_sizes(keep), logp, mu, Sigma); %%%%%% function [logpX, muX, SXX] = marginalize_gaussian(logp, mu, Sigma, X, Y, ns) % MARGINALIZE_GAUSSIAN Compute Pr(X) from Pr(X,Y) where X and Y are jointly Gaussian. % [logpX, muX, SXX] = marginalize_gaussian(logp, mu, Sigma, X, Y, ns) % % sizes(i) is the size of the i'th block in domain. [muX, muY, SXX, SXY, SYX, SYY] = partition_matrix_vec(mu, Sigma, X, Y, ns); logpX = logp; % Lauritzen (1996) p161