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addFrame

Add pair of color and depth images to RGB-D visual SLAM object

Since R2024a

    Description

    addFrame(vslam,colorImage,depthImage) adds the pair of color and depth images, colorImage and depthImage respectively, to the RGB-D visual SLAM object vslam. The color and depth images must be preregistered with a one-to-one correspondence.

    Note

    The rgbdvslam object runs on multiple threads internally, which can delay the processing of an image frame added by using the addFrame function. Additionally, the object running on multiple threads means the current frame the object is processing can be different than the recently added frame.

    example

    Examples

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    Perform RGB-D visual simultaneous localization and mapping (vSLAM) using the data from the TUM RGB-D Benchmark. You can download the data to a temporary directory using a web browser or by running this code:

    baseDownloadURL = "https://vision.in.tum.de/rgbd/dataset/freiburg3/rgbd_dataset_freiburg3_long_office_household.tgz"; 
    dataFolder = fullfile(tempdir,"tum_rgbd_dataset",filesep); 
    options = weboptions(Timeout=Inf);
    tgzFileName = dataFolder+"fr3_office.tgz";
    folderExists = exist(dataFolder,"dir");
    
    % Create a folder in a temporary directory to save the downloaded file
    if ~folderExists  
        mkdir(dataFolder) 
        disp("Downloading fr3_office.tgz (1.38 GB). This download can take a few minutes.") 
        websave(tgzFileName,baseDownloadURL,options); 
        
        % Extract contents of the downloaded file
        disp("Extracting fr3_office.tgz (1.38 GB) ...") 
        untar(tgzFileName,dataFolder); 
    end

    Create two imageDatastore objects. One to store the color images and the other to store the depth images.

    colorImageFolder = dataFolder+"rgbd_dataset_freiburg3_long_office_household/rgb/";
    depthImageFolder = dataFolder+"rgbd_dataset_freiburg3_long_office_household/depth/";
    
    imdsColor = imageDatastore(colorImageFolder);
    imdsDepth = imageDatastore(depthImageFolder);

    Select the synchronized pair of color and depth images.

    data = load("rgbDepthPairs.mat");
    imdsColor=subset(imdsColor, data.indexPairs(:, 1));
    imdsDepth=subset(imdsDepth, data.indexPairs(:, 2));

    Specify your camera intrinsic parameters, and use them to create an RGB-D visual SLAM object.

    intrinsics = cameraIntrinsics([535.4 539.2],[320.1 247.6],[480 640]);
    depthScaleFactor = 5000;
    vslam = rgbdvslam(intrinsics,depthScaleFactor);

    Process each pair of color and depth images, and visualize the camera poses and 3-D map points.

    for i = 1:numel(imdsColor.Files)
        colorImage = readimage(imdsColor,i);
        depthImage = readimage(imdsDepth,i);
        addFrame(vslam,colorImage,depthImage);
    
        if hasNewKeyFrame(vslam)
            % Query 3-D map points and camera poses
            xyzPoints = mapPoints(vslam);
            [camPoses,viewIds] = poses(vslam);
    
            % Display 3-D map points and camera trajectory
            plot(vslam);
        end
    
        % Get current status of system
        status = checkStatus(vslam);
        
        % Stop adding frames when tracking is lost
        if status == uint8(0)
            break
        end
    end 

    Once all the frames have been processed, reset the system.

    while ~isDone(vslam)
        plot(vslam);
    end
    reset(vslam);

    Input Arguments

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    RGB-D visual SLAM object, specified as an rgbdvslam object.

    Color image, specified as a nonsparse RGB or grayscale image. The color and depth images must be preregistered with a one-to-one correspondence.

    Data Types: single | double | int16 | uint8 | uint16 | logical

    Color image, specified as a nonsparse grayscale image. The color and depth images must be preregistered with a one-to-one correspondence.

    Data Types: single | double | int16 | uint8 | uint16 | logical

    Version History

    Introduced in R2024a