gtsam/matlab/vila01_BejingPose2Graph.m

load beijing.mat;
load beijing_angles.mat;
load beijing_graph.mat;
%load beijing_config.mat;

cov = [ 0.25, 0, 0; 0, 0.25, 0; 0, 0, 0.01];


factors = Pose2Graph;
factors2 = Pose2Graph;
ord = Ordering();
ord2 = Ordering();

for i=1:length(ways)
    if mod(i,500) == 0
        fprintf(1, 'processing way %d\n', i);
    end
    for j=1:length(ways{i})-1
        id1 = ways{i}(j);
        id2 = ways{i}(j+1);
        key1 = sprintf('x%d', id1);
        key2 = sprintf('x%d', id2);

        delta_x = points(id1,:) - points(id2,:);
        delta_angle = angles(id1) - angles(id2);
        measured = Pose2(delta_x(1), delta_x(2), delta_angle);

        if pred(id1) == id2 || pred(id2) == id1 %% in the spanning tree
            factor=Pose2Factor(key1,key2,measured, cov);
            factors.push_back(factor);
            ord.push_back(key1);
            ord.push_back(key2);
        else %% not in the spanning tree
            factors2.push_back(Pose2Factor(key1,key2,measured, cov));
            ord2.push_back(key1);
            ord2.push_back(key2);
        end
    end
end
ord.unique();
ord2.unique();
% ord.reverse();
% ord2.reverse();

if 0
    config=Pose2Config();
    n=size(points,1);
    for j=1:n
        pose=Pose2(points(j,1),points(j,2),angles(j));
        key = sprintf('x%d', j);
        config.insert(key,pose);
        if mod(j,1000) == 0
            key
        end
    end
    save('beijing_config.mat','config');
end

amd_ord=factors.getOrdering_(); % does not work
LFG=factors.linearize_(config);
ijs=LFG.sparse(ord);
A=sparse(ijs(1,:),ijs(2,:),ijs(3,:)); 
figure(1)
spy(A);
%save('beijing_factors.mat', 'factors');

LFG2=factors2.linearize_(config);
ijs2=LFG2.sparse(ord2);
A2=sparse(ijs2(1,:),ijs2(2,:),ijs2(3,:)); 
figure(2)
spy(A2);

% show R factor
R = qr(A,0);
figure(3)
spy(R)

% show re-ordered R factor
P = colamd(A);
figure(4)
spy(A(:,P))
R = qr(A(:,P),0);
figure(5)
spy(R)
beijing files and script 2009-12-12 07:00:07 +08:00			`load beijing.mat;`
			`load beijing_angles.mat;`
			`load beijing_graph.mat;`
Trying different orderings 2009-12-12 20:53:39 +08:00			`%load beijing_config.mat;`
beijing files and script 2009-12-12 07:00:07 +08:00
			`cov = [ 0.25, 0, 0; 0, 0.25, 0; 0, 0, 0.01];`


			`factors = Pose2Graph;`
			`factors2 = Pose2Graph;`
			`ord = Ordering();`
show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00			`ord2 = Ordering();`
beijing files and script 2009-12-12 07:00:07 +08:00
show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00			`for i=1:length(ways)`
Trying different orderings 2009-12-12 20:53:39 +08:00			`if mod(i,500) == 0`
beijing files and script 2009-12-12 07:00:07 +08:00			`fprintf(1, 'processing way %d\n', i);`
			`end`
			`for j=1:length(ways{i})-1`
			`id1 = ways{i}(j);`
			`id2 = ways{i}(j+1);`
			`key1 = sprintf('x%d', id1);`
			`key2 = sprintf('x%d', id2);`

			`delta_x = points(id1,:) - points(id2,:);`
			`delta_angle = angles(id1) - angles(id2);`
			`measured = Pose2(delta_x(1), delta_x(2), delta_angle);`

			`if pred(id1) == id2 \|\| pred(id2) == id1 %% in the spanning tree`
			`factor=Pose2Factor(key1,key2,measured, cov);`
			`factors.push_back(factor);`
			`ord.push_back(key1);`
			`ord.push_back(key2);`
			`else %% not in the spanning tree`
			`factors2.push_back(Pose2Factor(key1,key2,measured, cov));`
show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00			`ord2.push_back(key1);`
			`ord2.push_back(key2);`
beijing files and script 2009-12-12 07:00:07 +08:00			`end`
			`end`
			`end`
			`ord.unique();`
show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00			`ord2.unique();`
Trying different orderings 2009-12-12 20:53:39 +08:00			`% ord.reverse();`
			`% ord2.reverse();`
show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00
			`if 0`
			`config=Pose2Config();`
			`n=size(points,1);`
			`for j=1:n`
			`pose=Pose2(points(j,1),points(j,2),angles(j));`
			`key = sprintf('x%d', j);`
			`config.insert(key,pose);`
			`if mod(j,1000) == 0`
			`key`
			`end`
beijing files and script 2009-12-12 07:00:07 +08:00			`end`
show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00			`save('beijing_config.mat','config');`
beijing files and script 2009-12-12 07:00:07 +08:00			`end`

show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00			`amd_ord=factors.getOrdering_(); % does not work`
beijing files and script 2009-12-12 07:00:07 +08:00			`LFG=factors.linearize_(config);`
show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00			`ijs=LFG.sparse(ord);`
beijing files and script 2009-12-12 07:00:07 +08:00			`A=sparse(ijs(1,:),ijs(2,:),ijs(3,:));`
show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00			`figure(1)`
beijing files and script 2009-12-12 07:00:07 +08:00			`spy(A);`
			`%save('beijing_factors.mat', 'factors');`

show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00			`LFG2=factors2.linearize_(config);`
			`ijs2=LFG2.sparse(ord2);`
			`A2=sparse(ijs2(1,:),ijs2(2,:),ijs2(3,:));`
			`figure(2)`
			`spy(A2);`

			`% show R factor`
Trying different orderings 2009-12-12 20:53:39 +08:00			`R = qr(A,0);`
show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00			`figure(3)`
Trying different orderings 2009-12-12 20:53:39 +08:00			`spy(R)`

			`% show re-ordered R factor`
			`P = colamd(A);`
			`figure(4)`
show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00			`spy(A(:,P))`
			`R = qr(A(:,P),0);`
Trying different orderings 2009-12-12 20:53:39 +08:00			`figure(5)`
show whole matrix and solve in MATLAB 2009-12-12 14:19:30 +08:00			`spy(R)`