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De-Skewing LiDAR Scan for Refinement of Local Mapping

Lei He, Zhe Jin, Zhenhai Gao

2020Sensors17 citationsDOIOpen Access PDF

Abstract

Simultaneous localization and mapping have become a basic requirement for most automatic moving robots. However, the LiDAR scan suffers from skewing caused by high-acceleration motion that reduces the precision in the latter mapping or classification process. In this study, we improve the quality of mapping results through a de-skewing LiDAR scan. By integrating high-sampling frequency IMU (inertial measurement unit) measurements and establishing a motion equation for time, we can get the pose of every point in this scan's frame. Then, all points in this scan are corrected and transformed into the frame of the first point. We expand the scope of optimization range from the current scan to a local range of point clouds that not only considers the motion of LiDAR but also takes advantage of the neighboring LiDAR scans. Finally, we validate the performance of our algorithm in indoor and outdoor experiments to compare the mapping results before and after de-skewing. Experimental results show that our method smooths the scan skewing on each channel and improves the mapping accuracy.

Topics & Concepts

LidarComputer sciencePoint cloudInertial measurement unitComputer visionArtificial intelligenceRangingSampling (signal processing)Frame (networking)Mobile mappingRange (aeronautics)Remote sensingGeologyEngineeringTelecommunicationsFilter (signal processing)Aerospace engineeringRobotics and Sensor-Based LocalizationIndoor and Outdoor Localization Technologies3D Surveying and Cultural Heritage
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