Abstract
The autonomous positioning of tunneling equipment is the key to intellectualization and robotization of a tunneling face. In this paper, a method based on simultaneous localization and mapping (SLAM) to estimate the body pose of a roadheader and build a navigation map of a roadway is presented. In terms of pose estimation, an RGB-D camera is used to collect images, and a pose calculation model of a roadheader is established based on random sample consensus (RANSAC) and iterative closest point (ICP); constructing a pose graph optimization model with closed-loop constraints. An iterative equation based on Levenberg–Marquadt is derived, which can achieve the optimal estimation of the body pose. In terms of mapping, LiDAR is used to experimentally construct the grid map based on open-source algorithms, such as Gmapping, Cartographer, Karto, and Hector. A point cloud map, octree map, and compound map are experimentally constructed based on the open-source library RTAB-MAP. By setting parameters, such as the expansion radius of an obstacle and the updating frequency of the map, a cost map for the navigation of a roadheader is established. Combined with algorithms, such as Dijskra and timed-elastic-band, simulation experiments show that the combination of octree map and cost map can support global path planning and local obstacle avoidance.
Highlights
With the rapid development of the industrial Internet, big data, and artificial intelligence, the intellectualization and robotization of equipment have become an inevitable trend in industrial development
The main conclusions are as follows: (1) The positioning method based on visual simultaneous localization and mapping (SLAM) technology is proposed, the enviro ment data are collected by an airborne RGB-D camera, and the random sample consensus (RANSAC)+iterative closest point (ICP) mod
The positioning method based on visual SLAM technology is proposed, the environment data are collected by an airborne RGB-D camera, and the RANSAC+ICP
Summary
With the rapid development of the industrial Internet, big data, and artificial intelligence, the intellectualization and robotization of equipment have become an inevitable trend in industrial development. The laser beams were used for the image feature, and a measurement system of roadheader body pose, based on monocular vision, was established. The positioning requirements of roadheaders and the objective conditions, such as tunnel environment and sensor attributes, are comprehensively considered, a method of body pose estimation for roadheaders, based on visual SLAM, is proposed, and multiple schemes of environmental map construction based on laser and visual SLAM are tested. These can provide information for pose correction, navigation of roadheaders, and three-dimensional reconstruction of roadways
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