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A Novel Multifeature Based On-Site Calibration Method for LiDAR-IMU System

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posted on 2024-11-15, 08:55 authored by Wanli Liu, Zhixiong Li, Reza Malekian, Miguel Sotelo, Zhenjun MaZhenjun Ma, Weihua LiWeihua Li
© 1982-2012 IEEE. Calibration is an essential prerequisite for the combined application of light detection and ranging (LiDAR) and inertial measurement unit (IMU). However, current LiDAR-IMU calibration usually relies on particular artificial targets or facilities and the intensive labor greatly limits the calibration flexibility. For these reasons, this article presents a novel multifeature based on-site calibration method for LiDAR-IMU system without any artificial targets or specific facilities. This new on-site calibration combines the point/sphere, line/cylinder, and plane features from LiDAR scanned data to reduce the labor intensity. The main contribution is that a new method is developed for LiDAR extrinsic parameters on-site calibration and this method could incorporate two or more calibration models to generate more accurate calibration results. First of all, the calibration of LiDAR extrinsic parameters is performed through estimating the geometric features and solving the multifeature geometric constrained optimization problem. Then, the relationships between LiDAR and IMU intrinsic calibration parameters are determined by the coordinate transformation. Lastly, the full information maximum likelihood estimation (FIMLE) method is applied to solve the optimization of the IMU intrinsic parameters calibration. A series of experiments are conducted to evaluate the proposed method. The analysis results demonstrate that the proposed on-site calibration method can improve the performance of the LiDAR-IMU.

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Citation

Liu, W., Li, Z., Malekian, R., Sotelo, M., Ma, Z. & Li, W. (2020). A Novel Multifeature Based On-Site Calibration Method for LiDAR-IMU System. IEEE Transactions on Industrial Electronics, 67 (11), 9851-9861.

Journal title

IEEE Transactions on Industrial Electronics

Volume

67

Issue

11

Pagination

9851-9861

Language

English

RIS ID

144860

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