Title :
Cavlectometry: Towards Holistic Reconstruction of Large Mirror Objects
Author :
Balzer, Jonathan ; Acevedo-Feliz, Daniel ; Soatto, Stefano ; Hofer, Sebastian ; Hadwiger, Markus ; Beyerer, Jurgen
Abstract :
We introduce a method based on the deflectometry principle for the reconstruction of specular objects exhibiting significant size and geometric complexity. A key feature of our approach is the deployment of an Automatic Virtual Environment (CAVE) as pattern generator. To unfold the full power of this experimental setup, an optical encoding scheme is developed which accounts for the distinctive topology of the CAVE. Furthermore, we devise an algorithm for detecting the object of interest in raw deflect metric images. The segmented foreground is used for single-view reconstruction, the background for estimation of the camera pose, necessary for calibrating the sensor system. Experiments suggest a significant gain of coverage in single measurements compared to previous methods.
Keywords :
cameras; image coding; image reconstruction; image segmentation; object detection; CAVE topology; automatic virtual environment; camera pose estimation; cavlectometry; deflectometry principle; geometric complexity; large mirror object reconstruction; optical encoding scheme; pattern generator; raw deflect metric image; sensor system; single-view reconstruction; specular object reconstruction; Calibration; Cameras; Encoding; Generators; Image reconstruction; Optical imaging; Surface reconstruction; CAVE; deflectometry; mirror; reconstruction; shape; specular; surface;
Conference_Titel :
3D Vision (3DV), 2014 2nd International Conference on
Conference_Location :
Tokyo
DOI :
10.1109/3DV.2014.85
