10 August 1998 Calibration errors in laser-scanning 3D-vision measurement using the space encoding method
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Abstract
Space encoding is the effective method saving image- acquisition time in structure light 3D vision. In this paper, we propose calibration parameters, which do not include camera inner parameters, of the rangefinder using scanning-based spatial code pattern. We discuss the influence of calibration errors on rangefinder measuring. A model of the systematic calibration errors is developed based on the geometry of the rangefinder. According to given rangefinder accuracy, the limits to calibration errors are set from the model. An example is cited. Moreover, we discuss the influence of the shifting of the camera lens center and the polyhedral mirror reflecting point on the rangefinder precision.
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Xiaoyang Yu, Xiaoyang Yu, Jian Zhang, Jian Zhang, Liying Wu, Liying Wu, Qing Lin, Qing Lin, Xifu Qiang, Xifu Qiang, } "Calibration errors in laser-scanning 3D-vision measurement using the space encoding method", Proc. SPIE 3558, Automated Optical Inspection for Industry: Theory, Technology, and Applications II, (10 August 1998); doi: 10.1117/12.318405; https://doi.org/10.1117/12.318405
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