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3-D Dense Rangefinder Sensor With a Low-Cost Scanning Mechanism

Ming Cao, Pengpeng Su, Haoyao Chen, Shiyu Tang, Yunhui Liu

Year
2020
Citations
13

Abstract

LiDAR sensors have been widely applied in autonomous robotics and autonomous systems. High-channel LiDARs or multiple low-channel LiDARs are adopted in these applications to overcome the poor vertical resolution of point clouds, as this scenario can lead to high costs. Here, as a means to improve the vertical resolution of point clouds and lower the cost, we present a 3-D dense rangefinder sensor composed of a low-channel LiDAR, a camera, a brush-less motor, and a crank-link system to replace the traditional LiDAR. A special registration method is designed to register the high-dynamic point cloud. The measurement uncertainty of this method is analyzed. In addition, a 3-D object detection method is used to obtain the 3-D pose of obstacles by combining the dense point cloud and an image-based 2-D object detection algorithm. Finally, several experiments are performed to evaluate the effectiveness of the proposed 3-D rangefinder sensor.

Keywords

LidarPoint cloudArtificial intelligenceComputer visionComputer scienceObject detectionChannel (broadcasting)Point (geometry)RoboticsRemote sensing

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