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Dynamic Neural Radiance Fields for Monocular 4D Facial Avatar Reconstruction

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arxiv 2012.03065 v1 pith:DL5W2DYX submitted 2020-12-05 cs.CV cs.GR

Dynamic Neural Radiance Fields for Monocular 4D Facial Avatar Reconstruction

classification cs.CV cs.GR
keywords representationdynamicneuralsceneappearanceapplicationsdynamicsface
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present dynamic neural radiance fields for modeling the appearance and dynamics of a human face. Digitally modeling and reconstructing a talking human is a key building-block for a variety of applications. Especially, for telepresence applications in AR or VR, a faithful reproduction of the appearance including novel viewpoints or head-poses is required. In contrast to state-of-the-art approaches that model the geometry and material properties explicitly, or are purely image-based, we introduce an implicit representation of the head based on scene representation networks. To handle the dynamics of the face, we combine our scene representation network with a low-dimensional morphable model which provides explicit control over pose and expressions. We use volumetric rendering to generate images from this hybrid representation and demonstrate that such a dynamic neural scene representation can be learned from monocular input data only, without the need of a specialized capture setup. In our experiments, we show that this learned volumetric representation allows for photo-realistic image generation that surpasses the quality of state-of-the-art video-based reenactment methods.

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