Mercurial > hg > camir-aes2014
diff toolboxes/FullBNT-1.0.7/bnt/examples/dynamic/mk_water_dbn.m @ 0:e9a9cd732c1e tip
first hg version after svn
| author | wolffd |
|---|---|
| date | Tue, 10 Feb 2015 15:05:51 +0000 |
| parents | |
| children |
line wrap: on
line diff
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/toolboxes/FullBNT-1.0.7/bnt/examples/dynamic/mk_water_dbn.m Tue Feb 10 15:05:51 2015 +0000 @@ -0,0 +1,68 @@ +function bnet = mk_water_dbn(discrete_obs, obs_leaves) +% MK_WATER_DBN +% bnet = mk_water_dbn(discrete_obs, obs_leaves) +% +% If discrete_obs = 1 (default), the leaves are binary, else scalar Gaussians +% If obs_leaves = 1, all the leaves are observed, otherwise rnd nodes are observed +% +% This is a model of the biological processes of a water purification plant, developed +% by Finn V. Jensen, Uffe Kjærulff, Kristian G. Olesen, and Jan Pedersen. +% See http://www-nt.cs.berkeley.edu/home/nir/public_html/Repository/water.htm +% See also Boyen and Koller, "Tractable Inference for Complex Stochastic Processes", UAI98 + +if nargin < 1, discrete_obs = 1; end +if nargin < 1, obs_leaves = 1; end + +ss = 12; +intra = zeros(ss); +intra(1,9) = 1; +intra(3,10) = 1; +intra(4,11) = 1; +intra(8,12) = 1; + +inter = zeros(ss); +inter(1, [1 3]) = 1; +inter(2, [2 3 7]) = 1; +inter(3, [3 4 5]) = 1; +inter(4, [3 4 6]) = 1; +inter(5, [3 5 6]) = 1; +inter(6, [4 5 6]) = 1; +inter(7, [7 8]) = 1; +inter(8, [6 7 8]) = 1; + +if obs_leaves + onodes = 9:12; % leaves +else + onodes = [1 5 9:12]; % throw in some other nodes +end +hnodes = 1:8; +if discrete_obs + ns = 2*ones(1 ,ss); + dnodes = 1:ss; +else + ns = [2*ones(1,length(hnodes)) 1*ones(length(onodes))]; + dnodes = hnodes; +end + +eclass1 = 1:12; +eclass2 = [13:20 9:12]; +bnet = mk_dbn(intra, inter, ns, 'discrete', dnodes, 'eclass1', eclass1, 'eclass2', eclass2, ... + 'observed', onodes); +if discrete_obs + for i=1:max(eclass2) + bnet.CPD{i} = tabular_CPD(bnet, i); + end +else + for i=hnodes(:)' + bnet.CPD{i} = tabular_CPD(bnet, i); + end + for i=onodes(:)' + bnet.CPD{i} = gaussian_CPD(bnet, i); + end + for i=hnodes(:)'+ss + bnet.CPD{i} = tabular_CPD(bnet, i); + end +end + + +