11 July 2023 Accurate extrinsic calibration of solid-state light detection and ranging and camera system by coarse-to-fine grid-aligning
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Abstract

A high-precision extrinsic calibration is the underlying premise of the accurate perception of light detection and ranging (LiDAR) and camera systems commonly used in the autonomous driving industry. We propose a coarse-to-fine strategy to get rigid-body transformation between solid-state LiDAR with non-repetitive scanning and a RGB camera system using a chessboard as the calibration target. This method exploits the reflectance intensity characteristics of the LiDAR point cloud, which exhibit the distinct distribution in white and black blocks of chessboard. In the coarse calibration step, a reflectance intensity Gaussian mixture model was used to extract the unicolor block point cloud from the chessboard point cloud. Therefore, the initial estimate of the extrinsic parameter was obtained by aligning the corners in the point cloud and calculating the centroid of the unicolor block point cloud and corners in the image. In the refinement step, we extracted points on the border of each block as LiDAR features and designed an iterative optimization algorithm to align the intensity of LiDAR features with grayscale features in the image. This method utilizes the intensity information and compensates for corner errors in the point cloud due to reflectance intensity binarization. The results of the comparative experiment revealed that the proposed method outperformed existing methods in terms of accuracy. Experiments based on simulations and real-world conditions revealed that the proposed algorithm demonstrated a high accuracy, robustness, and consistency.

© 2023 Society of Photo-Optical Instrumentation Engineers (SPIE)
Yue Wang, Zhengchao Lai, Qian Zhang, Yanlin Qu, and Shaokun Han "Accurate extrinsic calibration of solid-state light detection and ranging and camera system by coarse-to-fine grid-aligning," Optical Engineering 62(7), 074101 (11 July 2023). https://doi.org/10.1117/1.OE.62.7.074101
Received: 16 January 2023; Accepted: 3 June 2023; Published: 11 July 2023
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KEYWORDS
Point clouds

LIDAR

Calibration

Cameras

Reflectivity

Solid state electronics

Imaging systems

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