AI Qinglin, LIU Gangjiang, XU Qiaoning. An RGB-D SLAM Algorithm for Robot Based on the Improved Geometric andMotion Constraints in Dynamic Environment[J]. ROBOT, 2021, 43(2): 167-176. DOI: 10.13973/j.cnki.robot.200147
Citation: AI Qinglin, LIU Gangjiang, XU Qiaoning. An RGB-D SLAM Algorithm for Robot Based on the Improved Geometric andMotion Constraints in Dynamic Environment[J]. ROBOT, 2021, 43(2): 167-176. DOI: 10.13973/j.cnki.robot.200147

An RGB-D SLAM Algorithm for Robot Based on the Improved Geometric andMotion Constraints in Dynamic Environment

  • The pose estimation accuracy and robustness of the indoor robot using traditional visual SLAM (simultaneous localization and mapping) systems in dynamic environments are poor because the moving feature points are incorrectly incorporated into the camera pose calculation. In order to solve this problem, the feature points are divided into 5 categories, including static feature points, unknown feature points, suspected static feature points, dynamic feature points, and mismatched feature points. Static feature points are screened with strict geometric constraints. Unknown feature points are divided into suspected static feature points, dynamic feature points, and mismatched feature points using multi-frame observation information, and Kalman filtering is performed. Finally, the static feature points, suspected static feature points, and dynamic feature points are all used for pose optimization. The experiments on the TUM dataset in indoor environments with moving objects show that the overall performance (including accuracy, robustness, and running speed) of the proposed algorithm is superior to other dynamic SLAM algorithms.
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