Go to ICB 2021 homepageRefining Single Low-Quality Facial Depth Map by Lightweight and Efficient Deep Model
Abstract: Consumer depth sensors have become increasingly common, however, the data are rather coarse and noisy, which is problematic to delicate tasks, such as 3D face modeling and 3D face recognition. In this paper, we present a novel and lightweight 3D Face Refinement Model (3D-FRM), to effectively and efficiently improve the quality of such single facial depth maps. 3D-FRM has an encoder-decoder structure, where the encoder applies depth-wise, point-wise convolutions and the fusion of features of different receptive fields to capture original discriminative information, and the decoder exploits sub-pixel convolutions and the combination of low- and high-level features to achieve strong shape recovery. We also propose a joint loss function to smooth facial surfaces and preserve their identities. In addition, we contribute a large dataset with low- and high-quality 3D face pairs to facilitate this research. Extensive experiments are conducted on the Bosphorus and Lock3DFace datasets, and results show the competency of the proposed method at ameliorating both visual quality and recognition accuracy. Code and data will be available at https://github.com/muyouhang/3D-FRM.
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