基于多分辨率小波的高光谱人脸数据约简与分类

P. Kishore, A. Sastry, C. B. S. V. Krishna, Y. Vikas, C. Aneesh
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引用次数: 1

摘要

与普通RGB相机捕捉人脸图像相比,使用高光谱相机捕获的高光谱人脸图像提供了生产信息。超光谱成像是收集和处理来自整个可见电磁波谱的信息。超光谱成像处理在连续可见光谱范围内的窄光谱带成像,并产生场景中所有像素的光谱。本研究采用近红外高光谱图像进行人脸识别实验。在香港理工大学创建的由47名测试对象组成的高光谱人脸数据库上完成识别。采用配备液晶可调滤波器的CCD相机采集高光谱人脸数据库图像,在近红外(0.7 ~ 1.0 m)范围内提供33个波段。实验证明,这个简单的算法可以用来识别面部姿势和表情随时间变化的人脸。
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Hyperspectral face data reduction and classification with multiresolution wavelets
Hyperspectral face images present productive information captured using a Hyperspectral camera compared to normal RGB camera capturing face images. Hyper spectral imaging is the collecting and processing of information from across the visible electromagnetic spectrum. Hyper spectral imaging deals with the imaging of narrow spectral bands over a continuous visible spectral range, and produces the spectra of all pixels in the scene. In this research face recognition experimentation is done in near infrared Hyperspectral images. The recognition is accomplished on Hyperspectral face database consisting of 47 test subjects created by Hong Kong Polytechnic University. The database images of Hyperspectral faces were collected using a CCD camera equipped with a liquid crystal tunable filter to provide 33 bands over the near-infrared (0.7_m-1.0_m). Experiments were conducted to demonstrate that this simple algorithm can be used to recognize faces that changes in facial pose and expression over time.
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