无监督人脸检测器自适应的概率弹性部分模型

Haoxiang Li, G. Hua, Zhe L. Lin, Jonathan Brandt, Jianchao Yang
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引用次数: 85

摘要

我们提出了一种无监督检测器自适应算法,使任何离线训练的人脸检测器适应特定的图像集合,从而达到更好的准确性。我们的检测器自适应算法的核心是一个概率弹性部分(PEP)模型,该模型使用一组人脸样本进行离线训练。它产生一个基于统计对齐部分的人脸表示,即PEP表示。为了使通用人脸检测器适应一组图像,我们计算了通用人脸检测器中候选检测的PEP表示,然后用最上面的阳性和阴性训练一个判别分类器。然后我们用这个分类器对所有的候选检测重新排序。通过这种方式,根据特定图像收集的统计数据定制的人脸检测器是由原始检测器改编的。我们在三个数据集上展示了两个最先进的面部检测器的广泛结果。与现有的人脸检测器相比,检测精度的显著提高充分证明了所提出的人脸检测器自适应算法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Probabilistic Elastic Part Model for Unsupervised Face Detector Adaptation
We propose an unsupervised detector adaptation algorithm to adapt any offline trained face detector to a specific collection of images, and hence achieve better accuracy. The core of our detector adaptation algorithm is a probabilistic elastic part (PEP) model, which is offline trained with a set of face examples. It produces a statistically aligned part based face representation, namely the PEP representation. To adapt a general face detector to a collection of images, we compute the PEP representations of the candidate detections from the general face detector, and then train a discriminative classifier with the top positives and negatives. Then we re-rank all the candidate detections with this classifier. This way, a face detector tailored to the statistics of the specific image collection is adapted from the original detector. We present extensive results on three datasets with two state-of-the-art face detectors. The significant improvement of detection accuracy over these state of-the-art face detectors strongly demonstrates the efficacy of the proposed face detector adaptation algorithm.
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