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arxiv: 2501.14726 · v1 · pith:N4T2KROS · submitted 2025-01-24 · cs.CV · cs.GR

Relightable Full-Body Gaussian Codec Avatars

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classification cs.CV cs.GR
keywords localbodychangesavatarsfull-bodynon-localappearancelight
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We propose Relightable Full-Body Gaussian Codec Avatars, a new approach for modeling relightable full-body avatars with fine-grained details including face and hands. The unique challenge for relighting full-body avatars lies in the large deformations caused by body articulation and the resulting impact on appearance caused by light transport. Changes in body pose can dramatically change the orientation of body surfaces with respect to lights, resulting in both local appearance changes due to changes in local light transport functions, as well as non-local changes due to occlusion between body parts. To address this, we decompose the light transport into local and non-local effects. Local appearance changes are modeled using learnable zonal harmonics for diffuse radiance transfer. Unlike spherical harmonics, zonal harmonics are highly efficient to rotate under articulation. This allows us to learn diffuse radiance transfer in a local coordinate frame, which disentangles the local radiance transfer from the articulation of the body. To account for non-local appearance changes, we introduce a shadow network that predicts shadows given precomputed incoming irradiance on a base mesh. This facilitates the learning of non-local shadowing between the body parts. Finally, we use a deferred shading approach to model specular radiance transfer and better capture reflections and highlights such as eye glints. We demonstrate that our approach successfully models both the local and non-local light transport required for relightable full-body avatars, with a superior generalization ability under novel illumination conditions and unseen poses.

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Cited by 1 Pith paper

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. JacobianAvatar: Temporally Consistent Semi-rigid Avatar Reconstruction from a Monocular Video

    cs.CV 2026-06 unverdicted novelty 5.0

    JacobianAvatar uses neural Jacobian fields with a constrained Poisson solver, signed distance regularization, and deformation-guided flow loss to produce temporally consistent avatars from monocular video.