Image Restoration Effect on DCT High Frequency Removal and Wiener Algorithm for Detecting Facial Key Points

A. Kusnadi, Vincent Anderson Ngadiman, I. Z. Pane, Syarief Gerald Prasetya
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引用次数: 2

Abstract

This study aims to figure out the effect of using Histogram Equalization and Discrete Cosine Transform (DCT) in detecting facial keypoints, which can be applied for 3D facial reconstruction in face recognition. Four combinations of methods comprising of Histogram Equalization, removing low-frequency coefficients using Discrete Cosine Transform (DCT) and using five feature detectors, namely: SURF, Minimum Eigenvalue, Harris-Stephens, FAST, and BRISK were used for test. Data that were used for test were obtained from Head Pose Image and ORL Databases. The result from the test were evaluated using F-score. The highest F-score for Head Pose Image Dataset is 0.140 and achieved through the combination of DCT & Histogram Equalization with feature detector SURF. The highest F-score for ORL Database is 0.33 and achieved through the combination of DCT & Histogram Equalization with feature detector BRISK.
基于DCT高频去除的图像恢复效果及Wiener算法的人脸关键点检测
本研究旨在研究利用直方图均衡化和离散余弦变换(DCT)检测人脸关键点的效果,并将其应用于人脸识别中的三维人脸重建。采用直方图均衡化、离散余弦变换(DCT)去除低频系数和SURF、Minimum Eigenvalue、Harris-Stephens、FAST、BRISK五种特征检测器四种组合方法进行测试。用于测试的数据来自Head Pose Image和ORL数据库。测试结果用f分进行评价。通过DCT和直方图均衡化与特征检测器SURF相结合,Head Pose Image Dataset的f值最高为0.140。ORL数据库的最高f值为0.33,是通过DCT &直方图均衡化与特征检测器BRISK相结合实现的。
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