부산대학교 도서관

High-precision three-dimensional scanning systems have been intensively researched and developed. Recently, for acquisition of large scale scene with high density, simultaneous localisation and mapping (SLAM) technique is preferred because of its simplicity; a single sensor that is moved around freely during 3D scanning. However, to integrate multiple scans, captured data as well as position of each sensor must be highly accurate, making these systems difficult to use in environments not accessible by humans, such as underwater, internal body, or outer space. In this paper, we propose a new, flexible system with multiple line lasers that reconstructs dense and accurate 3D scenes. The advantages of our proposed system are (1) no need of synchronization nor precalibration between lasers and a camera, and (2) the system can reconstruct 3D scenes in extreme conditions, such as underwater. We propose a new self-calibration method leveraging coplanarity and Epipolar constraints is proposed. We also propose a new bundle adjustment (BA) technique that is tailored to the system for a dense integration of multiple line laser scans. Experimental evaluation in both air and underwater environments confirms the advantages of the proposed method.