Survey of Extrinsic Calibration on LiDAR-Camera System for Intelligent Vehicle: Challenges, Approaches, and Trends

A system with light detection and ranging (LiDAR) and camera (named as LiDAR-camera system) plays the essential role in intelligent vehicle (IV), for it provides 3D spatial and 2D texture features for 3D scene understanding. To leverage LiDAR point cloud and image, extrinsic calibration is a crucial technique, for it can align 2D pixel and 3D point in the pixel-level accuracy. With the rapid development of IV, calibration demand is shifted from offline to online, from the specific scenes to the open scenes. It brings new challenge to the calibration task. Although numbers of approaches have been proposed in the last decade, there lacks an in-depth summary about this topic. Thus, we conduct a survey of extrinsic calibration. Theoretically, the key of calibration is to build correspondence from LiDAR point cloud and optical image. From the viewpoint of correspondence, we attempt to divide the mainstream approaches into explicit and implicit correspondence based methods. After that, we summarize both the strength and weakness of the current works, provide the methods comparison, and list the open-source implementations. Finally, we analyze the tendency of calibration approach, discuss the remained problems in this field. We believe that this survey benefits to the community of autonomous driving.