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A Euclidean Reconstruction of 3D Face Data Using a One-Shot Absolutely Coded Pattern  

Kim, Byoung-Woo (Dept of Electrical and Electronic Eng. Yonsei University)
Yu, Sun-Jin (Dept of Electrical and Electronic Eng. Yonsei University)
Lee, Sang-Youn (Dept of Electrical and Electronic Eng. Yonsei University)
Publication Information
Journal of the Institute of Electronics Engineers of Korea SP / v.42, no.6, 2005 , pp. 133-140 More about this Journal
Abstract
This paper presents a rapid face shape acquisition system. The system is composed of two cameras and one projector. The technique works by projecting a pattern on the object and capturing two images with two cameras. We use a 'one shot' system which provides 3D data acquired by single image per camera. The system is good for rapid data acquisition as our purpose. We use the 'absolutely coded pattern' using the hue and saturation of pattern lines. In this 'absolutely coded pattern' all patterns have absolute identification numbers. We solve the correspondence problem between the two images by using epipolar geometry and absolute identification numbers. In comparison to the 'relatively coded pattern' which uses relative identification numbers, the 'absolutely coded pattern' helps obtain rapid 3D data by one to one point matching on an epipolar line. Because we use two cameras, we obtain two images which have similar hue and saturation. This enables us to have the same absolute identification numbers in both images, and we can use the absolutely coded pattern for solving the correspondence problem. The proposed technique is applied to face data and the total time for shape acquisition is estimated.
Keywords
3D shape acquisition; color coded pattern; euclidean reconstruction; correspondence problem;
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