VisualISAMExample in MATLAB. Doesn't look quite right...

2012-06-06 09:41:06 +00:00 · 2012-06-06 09:41:06 +00:00 · 3e36890fd1
parent bb89cdda76
commit 3e36890fd1
1 changed files with 106 additions and 0 deletions
--- a/examples/matlab/VisualISAMExample.m
+++ b/examples/matlab/VisualISAMExample.m
@ -0,0 +1,106 @@
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 % 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 A simple visual SLAM example for structure from motion
 % @author Duy-Nguyen Ta
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %% Create a triangle target, just 3 points on a plane
 nPoints = 3;
 r = 10;
 points = {};
 for j=1:nPoints
    theta = (j-1)*2*pi/nPoints;
    points{j} = gtsamPoint3([r*cos(theta), r*sin(theta), 0]');
 end
 %% Create camera poses on a circle around the triangle
 nCameras = 30;
 height = 10;
 r = 30;
 poses = {};
 for i=1:nCameras
    theta = (i-1)*2*pi/nCameras;
    t = gtsamPoint3([r*cos(theta), r*sin(theta), height]');
    camera = gtsamSimpleCamera_lookat(t, gtsamPoint3(), gtsamPoint3([0,0,1]'), gtsamCal3_S2())
    poses{i} = camera.pose();
 end
 odometry = poses{1}.between(poses{2});
 poseNoise = gtsamSharedNoiseModel_Sigmas([0.001 0.001 0.001 0.1 0.1 0.1]');
 pointNoise = gtsamSharedNoiseModel_Sigma(3, 0.1);
 measurementNoise = gtsamSharedNoiseModel_Sigma(2, 1.0);
 K = gtsamCal3_S2(50,50,0,50,50);
 %% Create an ISAM object for inference
 isam = visualSLAMISAM;
 %% Update ISAM
 newFactors = visualSLAMGraph;
 initialEstimates = visualSLAMValues;
 for i=1:nCameras
    % Prior for the first pose or odometry for subsequent poses
    if (i==1)
        newFactors.addPosePrior(symbol('x',1), poses{1}, poseNoise);
    else
        newFactors.addOdometry(symbol('x',i-1), symbol('x',i), odometry, poseNoise);
    end
    % Visual measurement factors
    for j=1:nPoints
        camera = gtsamSimpleCamera(K,poses{i});
        zij = camera.project(points{j});
        newFactors.addMeasurement(zij, measurementNoise, symbol('x',i), symbol('l',j), K);
    end
    % Initial estimates for the new pose. Also initialize points while in 
    % the first frame.
    if (i==1)
        initialEstimates.insertPose(symbol('x',i), poses{i});
        for j=1:size(points,2)
            initialEstimates.insertPoint(symbol('l',j), points{j});
        end
    else
        %TODO: this might not be suboptimal since "result" is not the fully
        %optimized result
        prevPose = result.pose(symbol('x',i-1));
        initialEstimates.insertPose(symbol('x',i), prevPose.compose(odometry));
    end
    % Update ISAM, only update for the second frame onward
    % Update the first frame will cause error, since it's under constrained
    if (i>=2)
        isam.update(newFactors, initialEstimates);
        emptyFactors = visualSLAMGraph;
        emptyEstimates = visualSLAMValues;
        result = isam.estimate();
        % Plot first result
        figure(1);clf
        hold on;
        for j=1:size(points,2)
            P = isam.marginalCovariance(symbol('l',j));
            point_j = result.point(symbol('l',j));
            plot3(point_j.x, point_j.y, point_j.z,'marker','o');
            covarianceEllipse3D([point_j.x;point_j.y;point_j.z],P);
        end
        for ii=1:i
            P = isam.marginalCovariance(symbol('x',ii));
            pose_ii = result.pose(symbol('x',ii));
            plotPose3(pose_ii,P,10);
        end
        axis([-50 50 -50 50 -50 50])
        % Reset newFactors and initialEstimates to prepare for the next 
        % update
        newFactors = visualSLAMGraph;
        initialEstimates = visualSLAMValues;
    end
 end