Robust face alignment under occlusion via regional predictive power estimation
Date
2015
Authors
Yang, Heng
He, Xuming
Jia, Xuhui
Patras, Ioannis
Journal Title
Journal ISSN
Volume Title
Publisher
Institute of Electrical and Electronics Engineers (IEEE Inc)
Abstract
Face alignment has been well studied in recent years, however, when a face alignment model is applied on facial images with heavy partial occlusion, the performance deteriorates significantly. In this paper, instead of training an occlusion-aware model with visibility annotation, we address this issue via a model adaptation scheme that uses the result of a local regression forest (RF) voting method. In the proposed scheme, the consistency of the votes of the local RF in each of several oversegmented regions is used to determine the reliability of predicting the location of the facial landmarks. The latter is what we call regional predictive power (RPP). Subsequently, we adapt a holistic voting method (cascaded pose regression based on random ferns) by putting weights on the votes of each fern according to the RPP of the regions used in the fern tests. The proposed method shows superior performance over existing face alignment models in the most challenging data sets (COFW and 300-W). Moreover, it can also estimate with high accuracy (72.4% overlap ratio) which image areas belong to the face or nonface objects, on the heavily occluded images of the COFW data set, without explicit occlusion modeling.
Description
Keywords
Keywords: Decision trees; Regression analysis; cascaded pose regression; Face alignment; Model Adaptation; occlusion; Random forests; Face recognition cascaded pose regression; Face alignment; model adaptation; occlusion; random forest
Citation
Collections
Source
IEEE Transactions on Image Processing
Type
Journal article