High-speed digital color fringe projection technique for three-dimensional facial measurements

SPIE Photonics Europe Pub Date : 2016-04-29 DOI:10.1117/12.2220774

Cheng-Yang Liu, Li-Jen Chang, Chung-Yi Wang

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引用次数: 2

Abstract

Digital fringe projection techniques have been widely studied in industrial applications because of the advantages of high accuracy, fast acquisition and non-contact operation. In this study, a single-shot high-speed digital color fringe projection technique is proposed to measure three-dimensional (3-D) facial features. The light source used in the measurement system is structured light with color fringe patterns. A projector with digital light processing is used as light source to project color structured light onto face. The distorted fringe pattern image is captured by the 3-CCD color camera and encoded into red, green and blue channels. The phase-shifting algorithm and quality guided path unwrapping algorithm are used to calculate absolute phase map. The detecting angle of the color camera is adjusted by using a motorized stage. Finally, a complete 3-D facial feature is obtained by our technique. We have successfully achieved simultaneous 3-D phase acquisition, reconstruction and exhibition at a speed of 0.5 s. The experimental results may provide a novel, high accuracy and real-time 3-D shape measurement for facial recognition system.

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用于三维面部测量的高速数字彩色条纹投影技术

数字条纹投影技术具有精度高、采集速度快、非接触式操作等优点，在工业应用中得到了广泛的研究。在本研究中，提出了一种单镜头高速数字彩色条纹投影技术来测量三维人脸特征。测量系统使用的光源是带有彩色条纹图案的结构光。采用数字光处理投影仪作为光源，将彩色结构光投射到面部。畸变条纹图像由3-CCD彩色相机捕获，并编码为红、绿、蓝通道。采用相移算法和质量引导路径展开算法计算绝对相位图。彩色摄像机的检测角度采用电动工作台调节。最后，我们的技术得到了一个完整的三维人脸特征。我们成功地以0.5 s的速度同时实现了三维相位采集、重建和显示。实验结果可为人脸识别系统提供一种新颖、高精度、实时的三维形状测量方法。

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SPIE Photonics Europe

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