gtsam/matlab/gtsam_examples/SBAExample.m

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% GTSAM Copyright 2010, Georgia Tech Research Corporation, 
% Atlanta, Georgia 30332-0415
% All Rights Reserved
% Authors: Frank Dellaert, et al. (see THANKS for the full author list)
% 
% See LICENSE for the license information
%
% @brief An SFM example (adapted from SFMExample.m) optimizing calibration
% @author Yong-Dian Jian
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

import gtsam.*

%% Assumptions
%  - Landmarks as 8 vertices of a cube: (10,10,10) (-10,10,10) etc...
%  - Cameras are on a circle around the cube, pointing at the world origin
%  - Each camera sees all landmarks. 
%  - Visual measurements as 2D points are given, corrupted by Gaussian noise.

% Data Options
options.triangle = false;
options.nrCameras = 10;
options.showImages = false;

%% Generate data
[data,truth] = VisualISAMGenerateData(options);

measurementNoiseSigma = 1.0;
pointNoiseSigma = 0.1;
cameraNoiseSigmas = [0.001 0.001 0.001 0.1 0.1 0.1 ...
                     0.001*ones(1,5)]';

%% Create the graph (defined in visualSLAM.h, derived from NonlinearFactorGraph)
graph = NonlinearFactorGraph;

 
%% Add factors for all measurements
measurementNoise = noiseModel.Isotropic.Sigma(2,measurementNoiseSigma);
for i=1:length(data.Z)
    for k=1:length(data.Z{i})
        j = data.J{i}{k};
        graph.add(GeneralSFMFactorCal3_S2(data.Z{i}{k}, measurementNoise, symbol('c',i), symbol('p',j)));
    end
end

%% Add Gaussian priors for a pose and a landmark to constrain the system
cameraPriorNoise  = noiseModel.Diagonal.Sigmas(cameraNoiseSigmas);
firstCamera = PinholeCameraCal3_S2(truth.cameras{1}.pose, truth.K);
graph.add(PriorFactorPinholeCameraCal3_S2(symbol('c',1), firstCamera, cameraPriorNoise));

pointPriorNoise  = noiseModel.Isotropic.Sigma(3,pointNoiseSigma);
graph.add(PriorFactorPoint3(symbol('p',1), truth.points{1}, pointPriorNoise));

%% Print the graph
graph.print(sprintf('\nFactor graph:\n'));


%% Initialize cameras and points close to ground truth in this example
initialEstimate = Values;
for i=1:size(truth.cameras,2)
    pose_i = truth.cameras{i}.pose.retract(0.1*randn(6,1));
    camera_i = PinholeCameraCal3_S2(pose_i, truth.K);
    initialEstimate.insert(symbol('c',i), camera_i);
end
for j=1:size(truth.points,2)
    point_j = Point3(truth.points{j} + 0.1*randn(3,1));
    initialEstimate.insert(symbol('p',j), point_j);
end
initialEstimate.print(sprintf('\nInitial estimate:\n  '));

%% Fine grain optimization, allowing user to iterate step by step
parameters = LevenbergMarquardtParams;
parameters.setlambdaInitial(1.0);
parameters.setVerbosityLM('trylambda');

optimizer = LevenbergMarquardtOptimizer(graph, initialEstimate, parameters);

for i=1:5
    optimizer.iterate();
end

result = optimizer.values();
result.print(sprintf('\nFinal result:\n  '));
wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00			`%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`
			`% GTSAM Copyright 2010, Georgia Tech Research Corporation,`
			`% Atlanta, Georgia 30332-0415`
			`% All Rights Reserved`
			`% Authors: Frank Dellaert, et al. (see THANKS for the full author list)`
			`%`
			`% See LICENSE for the license information`
			`%`
			`% @brief An SFM example (adapted from SFMExample.m) optimizing calibration`
			`% @author Yong-Dian Jian`
			`%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%`

Fixed "import gtsam.*" gluttony 2012-08-06 03:31:27 +08:00			`import gtsam.*`

wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00			`%% Assumptions`
			`% - Landmarks as 8 vertices of a cube: (10,10,10) (-10,10,10) etc...`
			`% - Cameras are on a circle around the cube, pointing at the world origin`
			`% - Each camera sees all landmarks.`
			`% - Visual measurements as 2D points are given, corrupted by Gaussian noise.`

			`% Data Options`
			`options.triangle = false;`
			`options.nrCameras = 10;`
			`options.showImages = false;`

			`%% Generate data`
Fixed "import gtsam.*" gluttony 2012-08-06 03:31:27 +08:00			`[data,truth] = VisualISAMGenerateData(options);`
wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00
			`measurementNoiseSigma = 1.0;`
			`pointNoiseSigma = 0.1;`
			`cameraNoiseSigmas = [0.001 0.001 0.001 0.1 0.1 0.1 ...`
			`0.001*ones(1,5)]';`

			`%% Create the graph (defined in visualSLAM.h, derived from NonlinearFactorGraph)`
Updated MATLAB SBAExample 2012-07-24 05:27:44 +08:00			`graph = NonlinearFactorGraph;`
wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00

			`%% Add factors for all measurements`
Wrap generates Matlab namespaces, so now 'import gtsam.*' allows class names like Values, NonlinearFactor, to be used. Without import, syntax is gtsam.Values, etc. 2012-07-18 23:47:06 +08:00			`measurementNoise = noiseModel.Isotropic.Sigma(2,measurementNoiseSigma);`
wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00			`for i=1:length(data.Z)`
			`for k=1:length(data.Z{i})`
			`j = data.J{i}{k};`
Updated MATLAB SBAExample 2012-07-24 05:27:44 +08:00			`graph.add(GeneralSFMFactorCal3_S2(data.Z{i}{k}, measurementNoise, symbol('c',i), symbol('p',j)));`
wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00			`end`
			`end`

			`%% Add Gaussian priors for a pose and a landmark to constrain the system`
Wrap generates Matlab namespaces, so now 'import gtsam.*' allows class names like Values, NonlinearFactor, to be used. Without import, syntax is gtsam.Values, etc. 2012-07-18 23:47:06 +08:00			`cameraPriorNoise = noiseModel.Diagonal.Sigmas(cameraNoiseSigmas);`
replaced/appended all calls to SimpleCamera with PinholeCameraCal3_S2 2020-02-22 08:42:55 +08:00			`firstCamera = PinholeCameraCal3_S2(truth.cameras{1}.pose, truth.K);`
Ported MATLAB Examples 2020-08-18 02:37:12 +08:00			`graph.add(PriorFactorPinholeCameraCal3_S2(symbol('c',1), firstCamera, cameraPriorNoise));`
wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00
Wrap generates Matlab namespaces, so now 'import gtsam.*' allows class names like Values, NonlinearFactor, to be used. Without import, syntax is gtsam.Values, etc. 2012-07-18 23:47:06 +08:00			`pointPriorNoise = noiseModel.Isotropic.Sigma(3,pointNoiseSigma);`
Updated MATLAB SBAExample 2012-07-24 05:27:44 +08:00			`graph.add(PriorFactorPoint3(symbol('p',1), truth.points{1}, pointPriorNoise));`
wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00
			`%% Print the graph`
			`graph.print(sprintf('\nFactor graph:\n'));`


			`%% Initialize cameras and points close to ground truth in this example`
Updated MATLAB SBAExample 2012-07-24 05:27:44 +08:00			`initialEstimate = Values;`
wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00			`for i=1:size(truth.cameras,2)`
			`pose_i = truth.cameras{i}.pose.retract(0.1*randn(6,1));`
replaced/appended all calls to SimpleCamera with PinholeCameraCal3_S2 2020-02-22 08:42:55 +08:00			`camera_i = PinholeCameraCal3_S2(pose_i, truth.K);`
Updated MATLAB SBAExample 2012-07-24 05:27:44 +08:00			`initialEstimate.insert(symbol('c',i), camera_i);`
wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00			`end`
			`for j=1:size(truth.points,2)`
Ported MATLAB Examples 2020-08-18 02:37:12 +08:00			`point_j = Point3(truth.points{j} + 0.1*randn(3,1));`
Updated MATLAB SBAExample 2012-07-24 05:27:44 +08:00			`initialEstimate.insert(symbol('p',j), point_j);`
wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00			`end`
			`initialEstimate.print(sprintf('\nInitial estimate:\n '));`

			`%% Fine grain optimization, allowing user to iterate step by step`
Wrap generates Matlab namespaces, so now 'import gtsam.*' allows class names like Values, NonlinearFactor, to be used. Without import, syntax is gtsam.Values, etc. 2012-07-18 23:47:06 +08:00			`parameters = LevenbergMarquardtParams;`
wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00			`parameters.setlambdaInitial(1.0);`
			`parameters.setVerbosityLM('trylambda');`

Updated MATLAB SBAExample 2012-07-24 05:27:44 +08:00			`optimizer = LevenbergMarquardtOptimizer(graph, initialEstimate, parameters);`
wrap sparseBA namespace for matlab and add an example 2012-07-07 01:38:32 +08:00
			`for i=1:5`
			`optimizer.iterate();`
			`end`

			`result = optimizer.values();`
			`result.print(sprintf('\nFinal result:\n '));`