Go to CVPR 2019 homepageCoarse-to-Fine 3D Face Reconstruction.
Abstract: Reconstructing accurate 3D shapes of human faces from a single 2D image is a highly challenging Computer Vision problem that is studied since decades. Statistical modeling techniques, such as the 3D Morphable Model (3DMM), have been widely employed because of their capability of reconstructing a plausible model grounding on the prior knowledge of the facial shape. However, most of them derive a and smooth approximation of the real shape, without accounting for the surface details. In this work, we propose an approach based on a Conditional Generative Adversarial Network (CGAN) for refining the reconstruction provided by a 3DMM. The latter is represented as a three-channel image, where the pixel intensities represent, respectively, the depth and the azimuth and elevation angles of the surface normals. The network architecture is an encoder-decoder, which is trained progressively, starting from the lower-resolution layers; this technique allows a more stable training, which led to the generation of high-quality outputs even when high-resolution images are fed during the training. Experimental results show that our method is able to produce detailed realistic reconstructions and obtain lower errors with respect to the 3DMM. Finally, a comparison with a state-of-the-art solution evidences competitive performance and a clear improvement in the quality of the generated models.
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