Full-scale structural displacement measurement with camera ego-motion compensation using RGB and LiDAR cameras

Displacement measurements based on computer vision techniques have shown significant potential in structural health monitoring. However, as the inevitable camera ego-motion results in a drift in the measured displacement, compensation for such errors must be performed carefully. Although an additional RGB camera is considered in conventional methods for error compensation, the need for the sub-target limits its application. This study presents a dual-camera system, consisting of RGB and light detection and ranging (LiDAR) cameras, that enables accurate camera ego-motion compensation for long-term structural displacement measurements. In particular, the LiDAR camera of the proposed system can measure the six-degrees-of-freedom (6-DOF) ego-motion of the camera body regardless of the sub-target and its elaborate design. The accuracy of the proposed method is evaluated by comparing it with that of a conventional RGB camera. The resulting displacement can be employed to monitor the long-term behavior of full-scale bridges.