一种基于三维图像分析的直观人机交互人脸识别方法

Lu Xu, Weiwei Liu, Kazuhiro Tsujino, Cunwei Lu
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引用次数: 5

摘要

人脸识别技术是人机交互的重要组成部分,可用于身份验证、人机界面等方面。人们提出了许多基于彩色图像分析的方法。然而,现有的人脸识别方法的实时性或准确性并不令人满意,这可能受到光照环境、位置变化、人脸化妆等因素的影响。本文提出了一种基于三维图像测量和三维图像直方图分析的人脸识别方法。我们采用最优强度调制模式投影(OIMP)技术来获取人脸的三维信息。由于OIMP技术只需要一个单一的投影,因此易于应用于人脸测量。我们提出的方法的识别过程如下。首先,建立三维数据库,存储使用OIMP测量技术获得的面部信息。只需要正面图像。其次,捕获被识别人的三维面部图像。然后将数据库中保存的三维图像的直方图与捕获的三维图像进行对比识别。如果两张三维图像的直方图相似度最大且大于某一阈值,则可以确定该用户是合适的人。为了验证方法的可行性,我们安排了一组不同年龄的男女测试人员进行验证实验。在不同的光照环境和不同的人脸角度下,平均识别准确率均在90%以上。
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A facial recognition method based on 3-D images analysis for intuitive human-system interaction
Facial recognition technology is an important part of human-system interaction, which can be used in ID verification, man-machine interface, etc. Many methods based on the analysis of a color image have been proposed. However, the real-time performance or accuracy of the existing recognition approaches is not satisfying, which can be influenced by factors such as lighting environment, position change, face make-up, etc. In this paper, we propose a facial recognition method based on three-dimensional (3-D) images measurement and 3-D image histogram analysis. We use the optimal intensity-modulation pattern projection (OIMP) technique to obtain the 3-D information of face. Since the OIMP technique needs only one single projection, it is easy to apply to human face measurement. The recognition procedure of the method we proposed is as follow. First, set up a 3-D database to store facial information obtained by using OIMP measurement technique. Only the front face images are needed. Second, capture the 3-D face image of the identified person. Then do the recognition by comparing histogram of saved 3-D image in database with the captured 3-D image. If the degree of histograms' similarity of the two 3-D images is the maximum and the value is higher than a certain threshold, then the user can be determined to be the right person. To verify the feasibility of the method, we have a group of testers including male and female of different ages and conduct a verification experiment. In the different lighting environments and different angles for faces, the average recognition accuracy was higher than 90%.
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