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annotate toolboxes/FullBNT-1.0.7/bnt/examples/dynamic/HHMM/hhmm_jtree_clqs.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 % Find out how big the cliques are in an HHMM as a function of depth
Daniel@0 2 % (This is how we get the complexity bound of O(D K^{1.5D}).)
Daniel@0 3
Daniel@0 4 if 0
Daniel@0 5 Qsize = [];
Daniel@0 6 Fsize = [];
Daniel@0 7 Nclqs = [];
Daniel@0 8 end
Daniel@0 9
Daniel@0 10 ds = 1:15;
Daniel@0 11
Daniel@0 12 for d = ds
Daniel@0 13 allQ = 1;
Daniel@0 14 [intra, inter, Qnodes, Fnodes, Onode] = mk_hhmm_topo(d, allQ);
Daniel@0 15
Daniel@0 16 N = length(intra);
Daniel@0 17 ns = 2*ones(1,N);
Daniel@0 18
Daniel@0 19 bnet = mk_dbn(intra, inter, ns);
Daniel@0 20 for i=1:N
Daniel@0 21 bnet.CPD{i} = tabular_CPD(bnet, i);
Daniel@0 22 end
Daniel@0 23
Daniel@0 24 if 0
Daniel@0 25 T = 5;
Daniel@0 26 dag = unroll_dbn_topology(intra, inter, T);
Daniel@0 27 engine = jtree_unrolled_dbn_inf_engine(bnet, T, 'constrained', 1);
Daniel@0 28 S = struct(engine);
Daniel@0 29 S1 = struct(S.sub_engine);
Daniel@0 30 end
Daniel@0 31
Daniel@0 32 engine = jtree_dbn_inf_engine(bnet);
Daniel@0 33 S = struct(engine);
Daniel@0 34 J = S.jtree_struct;
Daniel@0 35
Daniel@0 36 ss = 2*d+1;
Daniel@0 37 Qnodes2 = Qnodes + ss;
Daniel@0 38 QQnodes = [Qnodes Qnodes2];
Daniel@0 39
Daniel@0 40 % find out how many Q nodes in each clique, and how many F nodes
Daniel@0 41 C = length(J.cliques);
Daniel@0 42 Nclqs(d) = 0;
Daniel@0 43 for c=1:C
Daniel@0 44 Qsize(c,d) = length(myintersect(J.cliques{c}, QQnodes));
Daniel@0 45 Fsize(c,d) = length(myintersect(J.cliques{c}, Fnodes));
Daniel@0 46 if length(J.cliques{c}) > 1 % exclude observed leaves
Daniel@0 47 Nclqs(d) = Nclqs(d) + 1;
Daniel@0 48 end
Daniel@0 49 end
Daniel@0 50 %pred_max_Qsize(d) = ceil(d+(d+1)/2);
Daniel@0 51 pred_max_Qsize(d) = ceil(1.5*d);
Daniel@0 52
Daniel@0 53 fprintf('d=%d\n', d);
Daniel@0 54 %fprintf('D=%d, max F = %d. max Q = %d, pred max Q = %d\n', ...
Daniel@0 55 % D, max(Fsize), max(Qsize), ceil(D+(D+1)/2));
Daniel@0 56
Daniel@0 57 %histc(Qsize,1:max(Qsize)) % how many of each size?
Daniel@0 58 end % next d
Daniel@0 59
Daniel@0 60
Daniel@0 61 Q = 2;
Daniel@0 62 pred_mass = ds.*(Q.^ds) + Q.^(ceil(1.5 * ds))
Daniel@0 63 pred_mass2 = Q.^(ceil(1.5 * ds))
Daniel@0 64
Daniel@0 65 for d=ds
Daniel@0 66 mass(d) = 0;
Daniel@0 67 for c=1:C
Daniel@0 68 mass(d) = mass(d) + Q^Qsize(c,d);
Daniel@0 69 end
Daniel@0 70 end
Daniel@0 71
Daniel@0 72
Daniel@0 73 if 0
Daniel@0 74 %plot(ds, max(Qsize), 'o-', ds, pred_max_Qsize, '*--');
Daniel@0 75 %plot(ds, max(Qsize), 'o-', ds, 1.5*ds, '*--');
Daniel@0 76 %plot(ds, mass, 'o-', ds, pred_mass, '*--');
Daniel@0 77 D = 15;
Daniel@0 78 %plot(ds(1:D), mass(1:D), 'bo-', ds(1:D), pred_mass(1:D), 'g*--', ds(1:D), pred_mass2(1:D), 'k+-.');
Daniel@0 79 plot(ds(1:D), log(mass(1:D)), 'bo-', ds(1:D), log(pred_mass(1:D)), 'g*--', ds(1:D), log(pred_mass2(1:D)), 'k+-.');
Daniel@0 80
Daniel@0 81 grid on
Daniel@0 82 xlabel('depth of hierarchy')
Daniel@0 83 title('max num Q nodes in any clique vs. depth')
Daniel@0 84 legend('actual', 'predicted')
Daniel@0 85
Daniel@0 86 %previewfig(gcf, 'width', 3, 'height', 1.5, 'color', 'bw');
Daniel@0 87 %exportfig(gcf, '/home/cs/murphyk/WP/ConferencePapers/HHMM/clqsize2.eps', ...
Daniel@0 88 % 'width', 3, 'height', 1.5, 'color', 'bw');
Daniel@0 89
Daniel@0 90 end
Daniel@0 91
Daniel@0 92
Daniel@0 93 if 0
Daniel@0 94 for d=ds
Daniel@0 95 effnumclqs(d) = length(find(Qsize(:,d)>0));
Daniel@0 96 end
Daniel@0 97 ds = 1:10;
Daniel@0 98 Qs = 2:10;
Daniel@0 99 maxC = size(Qsize, 1);
Daniel@0 100 cost = [];
Daniel@0 101 cost_bound = [];
Daniel@0 102 for qi=1:length(Qs)
Daniel@0 103 Q = Qs(qi);
Daniel@0 104 for d=ds
Daniel@0 105 cost(d,qi) = 0;
Daniel@0 106 for c=1:maxC
Daniel@0 107 if length(Qsize(c,d) > 0) % this clique contains Q nodes
Daniel@0 108 cost(d,qi) = cost(d,qi) + Q^Qsize(c,d)*2^Fsize(c,d);
Daniel@0 109 end
Daniel@0 110 end
Daniel@0 111 %cost_bound(d,qi) = effnumclqs(d) * 8 * Q^(max(Qsize(:,d)));
Daniel@0 112 cost_bound(d,qi) = (effnumclqs(d)*8) + Q^(max(Qsize(:,d)));
Daniel@0 113 end
Daniel@0 114 end
Daniel@0 115
Daniel@0 116 qi=2; plot(ds, cost(:,qi), 'o-', ds, cost_bound(:,qi), '*--');
Daniel@0 117 end
Daniel@0 118
Daniel@0 119
Daniel@0 120 if 0
Daniel@0 121 % convert numbers in cliques into names
Daniel@0 122 for d=1:D
Daniel@0 123 Fdecode(Fnodes(d)) = d;
Daniel@0 124 end
Daniel@0 125 for c=8:15
Daniel@0 126 clqs = J.cliques{c};
Daniel@0 127 fprintf('clique %d: ', c);
Daniel@0 128 for k=clqs
Daniel@0 129 if myismember(k, Qnodes)
Daniel@0 130 fprintf('Q%d ', k)
Daniel@0 131 elseif myismember(k, Fnodes)
Daniel@0 132 fprintf('F%d ', Fdecode(k))
Daniel@0 133 elseif isequal(k, Onode)
Daniel@0 134 fprintf('O ')
Daniel@0 135 elseif myismember(k, Qnodes2)
Daniel@0 136 fprintf('Q%d* ', k-ss)
Daniel@0 137 else
Daniel@0 138 error(['unrecognized node ' k])
Daniel@0 139 end
Daniel@0 140 end
Daniel@0 141 fprintf('\n');
Daniel@0 142 end
Daniel@0 143 end