Gérard Medioni scite author profile

The 3D shapes of faces are well known to be discriminative. Yet despite this, they are rarely used for face recognition and always under controlled viewing conditions. We claim that this is a symptom of a serious but often overlooked problem with existing methods for single view 3D face reconstruction: when applied "in the wild", their 3D estimates are either unstable and change for different photos of the same subject or they are over-regularized and generic. In response, we describe a robust method for regressing discriminative 3D morphable face models (3DMM). We use a convolutional neural network (CNN) to regress 3DMM shape and texture parameters directly from an input photo. We overcome the shortage of training data required for this purpose by offering a method for generating huge numbers of labeled examples. The 3D estimates produced by our CNN surpass state of the art accuracy on the MICC data set. Coupled with a 3D-3D face matching pipeline, we show the first competitive face recognition results on the LFW, YTF and IJB-A benchmarks using 3D face shapes as representations, rather than the opaque deep feature vectors used by other modern systems.

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Context tracker: Exploring supporters and distracters in unconstrained environments

Dinh

Medioni

2011

454

270

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Do We Really Need to Collect Millions of Faces for Effective Face Recognition?

Masi¹,

Tran²,

Leksut

et al. 2016

266

238

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Abstract. Face recognition capabilities have recently made extraordinary leaps. Though this progress is at least partially due to ballooning training set sizes -huge numbers of face images downloaded and labeled for identity -it is not clear if the formidable task of collecting so many images is truly necessary. We propose a far more accessible means of increasing training data sizes for face recognition systems. Rather than manually harvesting and labeling more faces, we simply synthesize them. We describe novel methods of enriching an existing dataset with important facial appearance variations by manipulating the faces it contains. We further apply this synthesis approach when matching query images represented using a standard convolutional neural network. The effect of training and testing with synthesized images is extensively tested on the LFW and IJB-A (verification and identification) benchmarks and Janus CS2. The performances obtained by our approach match state of the art results reported by systems trained on millions of downloaded images.

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Gérard Medioni

Object modelling by registration of multiple range images

Object modeling by registration of multiple range images

Regressing Robust and Discriminative 3D Morphable Models with a Very Deep Neural Network

Context tracker: Exploring supporters and distracters in unconstrained environments

Do We Really Need to Collect Millions of Faces for Effective Face Recognition?

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