50 lines
1.7 KiB
Matlab
50 lines
1.7 KiB
Matlab
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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% GTSAM Copyright 2010, Georgia Tech Research Corporation,
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% Atlanta, Georgia 30332-0415
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% All Rights Reserved
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% Authors: Frank Dellaert, et al. (see THANKS for the full author list)
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%
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% See LICENSE for the license information
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%
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% @brief Read graph from file and perform GraphSLAM
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% @author Frank Dellaert
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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import gtsam.*
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%% Create a hexagon of poses
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hexagon = circlePose3(6,1.0);
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p0 = hexagon.atPose3(0);
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p1 = hexagon.atPose3(1);
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%% create a Pose graph with one equality constraint and one measurement
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fg = NonlinearFactorGraph;
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fg.add(NonlinearEqualityPose3(0, p0));
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delta = p0.between(p1);
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covariance = noiseModel.Diagonal.Sigmas([0.05; 0.05; 0.05; 5*pi/180; 5*pi/180; 5*pi/180]);
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fg.add(BetweenFactorPose3(0,1, delta, covariance));
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fg.add(BetweenFactorPose3(1,2, delta, covariance));
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fg.add(BetweenFactorPose3(2,3, delta, covariance));
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fg.add(BetweenFactorPose3(3,4, delta, covariance));
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fg.add(BetweenFactorPose3(4,5, delta, covariance));
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fg.add(BetweenFactorPose3(5,0, delta, covariance));
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%% Create initial config
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initial = Values;
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s = 0.10;
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initial.insert(0, p0);
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initial.insert(1, hexagon.atPose3(1).retract(s*randn(6,1)));
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initial.insert(2, hexagon.atPose3(2).retract(s*randn(6,1)));
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initial.insert(3, hexagon.atPose3(3).retract(s*randn(6,1)));
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initial.insert(4, hexagon.atPose3(4).retract(s*randn(6,1)));
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initial.insert(5, hexagon.atPose3(5).retract(s*randn(6,1)));
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%% optimize
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optimizer = LevenbergMarquardtOptimizer(fg, initial);
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result = optimizer.optimizeSafely;
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pose_1 = result.atPose3(1);
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CHECK('pose_1.equals(Pose3,1e-4)',pose_1.equals(p1,1e-4));
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