OL-Reg: Registration of Image and Sparse LiDAR Point Cloud With Object-Level Dense Correspondences

Image and point cloud registration (2D-3D registration) is an essential prerequisite for multi-modal feature fusion. However, due to the significant feature difference of point cloud and image, it is challenging to establish 2D-3D correspondences. Targeting for the background of autonomous driving, we propose 2D-3D registration method with object-level correspondence (OL-Reg) in this paper. Object-level correspondence consists of object bounding box and object contour in 2D image and 3D space. The first step is to match 2D-3D objects. Due to sensor pose and field of view (FoV) difference, object shape and occlusion is different in image and point cloud, causing the difficulty of object matching. To solve this issue, we represent object as 3D bounding box, and design 2D-3D object matching with 3D box projection (Box-Proj) constraint. It aligns object 3D bounding box in image and point cloud. After that, the next step is to build 2D-3D correspondence from the matched objects. To extract correspondence from object with irregular shape, we notice the distance constraint of object surface and rays back-projected from object contour, and present projection based iterative closest point (Proj-ICP). Towards the stability of Proj-ICP, object-level regularization term is designed. Experiment is conducted in KITTI object and odometry dataset. With the pre-trained 3D object detector, results suggest that OL-Reg has the better performance than current approaches in tasks of re-localization and extrinsic calibration. Source code will be released at https://github.com/anpei96/ol-reg-demo.