Shape measurement by a multi-view methodology based on the remote tracking of a 3D optical scanner

Full field optical techniques can be reliably used for 3D measurements of complex shapes by multi-view processes, which require the computation of transformation parameters relating different views into a common reference system. Although, several multi-view approaches have been proposed, the alignment process is still the crucial step of a shape reconstruction.In this paper, a methodology to automatically align 3D views has been developed by integrating a stereo vision system and a full field optical scanner. In particular, the stereo vision system is used to remotely track the optical scanner within a working volume. The tracking system uses stereo images to detect the 3D coordinates of retro-reflective infrared markers rigidly connected to the scanner. Stereo correspondences are established by a robust methodology based on combining the epipolar geometry with an image spatial transformation constraint.The proposed methodology has been validated by experimental tests regarding both the evaluation of the measurement accuracy and the 3D reconstruction of an industrial shape.

► We present a method to align 3D views by remote tracking a structured light scanner. ► A stereo vision system is used to detect infrared markers connected to the scanner. ► Stereo correspondences are defined by combining epipolar and transformation constraints. ► Obtained 3D marker coordinates are used to globally align each single view. ► Results demonstrate the robustness of the developed system in reconstructing various shapes.