A comparative study of color spaces in skin-based face segmentation

2013 10th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE) Pub Date : 2013-12-02 DOI:10.1109/ICEEE.2013.6676048

J. Montenegro, W. Gómez, P. Sanchez-Orellana

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引用次数: 15

Abstract

This paper presents a comparative study of five color spaces commonly used for detecting human skin. The evaluated models were: normalized RGB, HSV, YCbCr, CIE Lab, and CIE Luv. These color spaces attempt to separate the luminance from chrominance components, which is useful to make the face skin detection illumination independent. We used the Microsoft Kinect®sensor for acquiring 705 RGB images from 47 subjects in the age range from 18 to 45 years and distinct skin tones. Besides, each image was segmented manually to define true skin pixels. A probabilistic classifier was built for each tested colorspace to classify a pixel color into skin class or non-skin class. The Matthews correlation coefficient (MCC) was used to evaluate the quality of the computerized skin classification. The results pointed out that the CIE Lab colorspace reached the best MCC performance with median value equal to 0.779 and Qn estimator equal to 0.074. The worst performance was attached by normalized RGB with with median value equal to 0.606 and Qn estimator equal to 0.143.

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基于皮肤的人脸分割中颜色空间的比较研究

本文对人体皮肤检测常用的五种颜色空间进行了比较研究。评估模型为:归一化RGB、HSV、YCbCr、CIE Lab和CIE Luv。这些颜色空间试图将亮度与色度分量分离，这有助于使面部皮肤检测与照明无关。我们使用微软Kinect®传感器从47名年龄在18至45岁之间的不同肤色的受试者中获取705张RGB图像。此外，每张图像都是手动分割的，以定义真正的皮肤像素。为每个被测颜色空间构建概率分类器，将像素颜色分为皮肤类和非皮肤类。采用Matthews相关系数(MCC)评价计算机化皮肤分类的质量。结果表明，CIE Lab色彩空间在中值为0.779,Qn估计量为0.074时达到了最佳的MCC性能。归一化RGB中值为0.606,Qn估计量为0.143，性能最差。

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2013 10th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)

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