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Flexible camera-projector calibration using superposed color checkerboards

•Flexible camera-projector calibration method useful for in situ 3D imaging.•Camera and projector calibrated together using two superposed color checkerboards.•Calibration performed moving the camera and projector at unknown poses.•Simplified phase-to-shape conversion in the triangulation process.•R...

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Bibliographic Details
Published in:Optics and lasers in engineering 2019-09, Vol.120, p.59-65
Main Authors: Juarez-Salazar, Rigoberto, Diaz-Ramirez, Victor H.
Format: Article
Language:English
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Summary:•Flexible camera-projector calibration method useful for in situ 3D imaging.•Camera and projector calibrated together using two superposed color checkerboards.•Calibration performed moving the camera and projector at unknown poses.•Simplified phase-to-shape conversion in the triangulation process.•Reliability and high accuracy verified by experimental 3D surface measurements. Camera-projector calibration is essential in structured-light systems for three-dimensional imaging. A prevalent difficulty for calibration is that two different checkerboards must be captured. First, a physical checkerboard on the reference plane is required to obtain the camera parameters. Second, the physical checkerboard must be removed because it interferes with the projected pattern required to obtain the projector parameters. These requirements can be reduced if the camera is previously calibrated or specific arrangements are considered. However, the calibration procedure is very impractical and susceptible to misalignment errors. In this paper, a flexible camera-projector calibration method without any constraint on the position and orientation of the camera, the projector, and the reference plane, is proposed. For this, a physical checkerboard of a specific color is placed on the reference plane while the projector device projects another checkerboard with a different color. From an image captured by the camera, the two superposed checkerboards are recovered using the color information. In this way, the homographies required for calibration of both the camera and the projector are obtained simultaneously. The performance of the proposed method is verified experimentally by measuring the three-dimensional surface of three objects. Because of its high flexibility and accuracy, the proposed method is useful for in situ calibration of structured-light systems for three-dimensional imaging applications.
ISSN:0143-8166
1873-0302
DOI:10.1016/j.optlaseng.2019.02.016