Geometric calibration of a multi-layer LiDAR system and image sensors using plane-based implicit laser parameters for textured 3-D depth reconstruction

摘要

The paper proposes the calibration of a LiDAR-camera system that consists of a multi-layer laser range-finder device and a pair of video cameras. The method calibrates the intrinsic laser parameters and the extrinsic parameters of the integrated LiDAR-camera system. Using a linear form, the dimensionality of the calibration parameter space is reduced in the plane-based least square model. The optimal laser intrinsic parameters can be determined during the optimization of the extrinsic parameters, without being explicitly modeled. However, due to limited FOV of the cameras, the reduced model may lead to a solution that cannot be generalized to the working space. Hence, we use additional scene planes to improve the determination of intrinsic laser parameters. Overall performance is improved if calibration targets can be accurately estimated from the cameras. Results indicate a reduction of 50% in the flatness error is achievable and running time of the process is also decreased.