JCSE, vol. 13, no. 3, pp.99-106, 2019
DOI: http://dx.doi.org/10.5626/JCSE.2019.13.3.99
Point Cloud Segmentation of Crane Parts Using Dynamic Graph CNN for Crane Collision Avoidance
Hyeonho Jeong, Hyosung Hong, Gyuha Park, Mooncheol Won, Mingyu Kim, and Hoyeong Yu
Department of Mechatronics Engineering, Chungnam National University, Daejeon, Korea
FM Electronics, Daejeon, Korea
Abstract: In this study, we have developed a point cloud segmentation algorithm for a collision avoidance system between cranes
and other objects in construction yards. We used the Dynamic Graph CNN (DGCNN) algorithm to segment the point
cloud of the entire yard into crane parts and backgrounds. The point cloud data were obtained from several LIDAR sensors
attached to the crane. All points were grouped into specific core clusters using the DBSCAN algorithm. The core
clusters were used to train the DGCNN after labeling with corresponding part names. This network classified the point
cloud into crane types and their part names. Experimental results show that the crane part segmentation performance of
the suggested algorithm is accurate enough to be used for collision avoidance system. It is possible to estimate the pose
of a crane by comparing the segmented point clouds with those of the CAD model.
Keyword:
Crane; 3D point cloud; Segmentation; DBSCAN; Dynamic graph, CNN
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