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annotate toolboxes/FullBNT-1.0.7/bnt/examples/dynamic/SLAM/mk_gmux_robot_dbn.m @ 0:e9a9cd732c1e tip

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first hg version after svn
author wolffd
date Tue, 10 Feb 2015 15:05:51 +0000
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wolffd@0 1 function [bnet, Unode, Snode, Lnodes, Rnode, Ynode, Lsnode] = ...
wolffd@0 2 mk_gmux_robot_dbn(nlandmarks, Q, R, init_x, init_V, robot_block, landmark_block)
wolffd@0 3
wolffd@0 4 % Make DBN
wolffd@0 5
wolffd@0 6 % S
wolffd@0 7 % | L1 -------> L1'
wolffd@0 8 % | | L2 ----------> L2'
wolffd@0 9 % \ | /
wolffd@0 10 % v v v
wolffd@0 11 % Ls
wolffd@0 12 % |
wolffd@0 13 % v
wolffd@0 14 % Y
wolffd@0 15 % ^
wolffd@0 16 % |
wolffd@0 17 % R -------> R'
wolffd@0 18 % ^
wolffd@0 19 % |
wolffd@0 20 % U
wolffd@0 21 %
wolffd@0 22 %
wolffd@0 23 % S is a switch, Ls is a deterministic gmux, Y = Ls-R,
wolffd@0 24 % R(t+1) = R(t) + U(t+1), L(t+1) = L(t)
wolffd@0 25
wolffd@0 26
wolffd@0 27 % number nodes topologically
wolffd@0 28 Snode = 1;
wolffd@0 29 Lnodes = 2:nlandmarks+1;
wolffd@0 30 Lsnode = nlandmarks+2;
wolffd@0 31 Unode = nlandmarks+3;
wolffd@0 32 Rnode = nlandmarks+4;
wolffd@0 33 Ynode = nlandmarks+5;
wolffd@0 34
wolffd@0 35 nnodes = nlandmarks+5;
wolffd@0 36 intra = zeros(nnodes, nnodes);
wolffd@0 37 intra([Snode Lnodes], Lsnode) =1;
wolffd@0 38 intra(Unode,Rnode)=1;
wolffd@0 39 intra([Rnode Lsnode], Ynode)=1;
wolffd@0 40
wolffd@0 41 inter = zeros(nnodes, nnodes);
wolffd@0 42 inter(Rnode, Rnode)=1;
wolffd@0 43 for i=1:nlandmarks
wolffd@0 44 inter(Lnodes(i), Lnodes(i))=1;
wolffd@0 45 end
wolffd@0 46
wolffd@0 47 Lsz = 2; % (x y) posn of landmark
wolffd@0 48 Rsz = 2; % (x y) posn of robot
wolffd@0 49 Ysz = 2; % relative distance
wolffd@0 50 Usz = 2; % (dx dy) ctrl
wolffd@0 51 Ssz = nlandmarks; % can switch between any landmark
wolffd@0 52
wolffd@0 53 ns = zeros(1,nnodes);
wolffd@0 54 ns(Snode) = Ssz;
wolffd@0 55 ns(Lnodes) = Lsz;
wolffd@0 56 ns(Lsnode) = Lsz;
wolffd@0 57 ns(Ynode) = Ysz;
wolffd@0 58 ns(Rnode) = Rsz;
wolffd@0 59 ns(Ynode) = Usz;
wolffd@0 60 ns(Unode) = Usz;
wolffd@0 61
wolffd@0 62 bnet = mk_dbn(intra, inter, ns, 'discrete', Snode, 'observed', [Snode Ynode Unode]);
wolffd@0 63
wolffd@0 64
wolffd@0 65 bnet.CPD{Snode} = root_CPD(bnet, Snode); % always observed
wolffd@0 66 bnet.CPD{Unode} = root_CPD(bnet, Unode); % always observed
wolffd@0 67 for i=1:nlandmarks
wolffd@0 68 bi = landmark_block(:,i);
wolffd@0 69 bnet.CPD{Lnodes(i)} = gaussian_CPD(bnet, Lnodes(i), 'mean', init_x(bi), 'cov', init_V(bi,bi));
wolffd@0 70 end
wolffd@0 71 bi = robot_block;
wolffd@0 72 bnet.CPD{Rnode} = gaussian_CPD(bnet, Rnode, 'mean', init_x(bi), 'cov', init_V(bi,bi), 'weights', eye(2));
wolffd@0 73 bnet.CPD{Lsnode} = gmux_CPD(bnet, Lsnode, 'cov', repmat(zeros(Lsz,Lsz), [1 1 nlandmarks]), ...
wolffd@0 74 'weights', repmat(eye(Lsz,Lsz), [1 1 nlandmarks]));
wolffd@0 75 W = [eye(2) -eye(2)]; % Y = Ls - R, where Ls is the lower-numbered parent
wolffd@0 76 bnet.CPD{Ynode} = gaussian_CPD(bnet, Ynode, 'mean', zeros(Ysz,1), 'cov', R, 'weights', W);
wolffd@0 77
wolffd@0 78 % slice 2
wolffd@0 79 eclass = bnet.equiv_class;
wolffd@0 80 W = [eye(2) eye(2)]; % R(t) = R(t-1) + U(t), where R(t-1) is the lower-numbered parent
wolffd@0 81 bnet.CPD{eclass(Rnode,2)} = gaussian_CPD(bnet, Rnode+nnodes, 'mean', zeros(Rsz,1), 'cov', Q, 'weights', W);
wolffd@0 82 for i=1:nlandmarks
wolffd@0 83 bnet.CPD{eclass(Lnodes(i), 2)} = gaussian_CPD(bnet, Lnodes(i)+nnodes, 'mean', zeros(2,1), ...
wolffd@0 84 'cov', zeros(2,2), 'weights', eye(2));
wolffd@0 85 end