Geometry‐Enhanced Implicit Function for Detailed Clothed Human Reconstruction With RGB‐D Input

Geometry‐Enhanced Implicit Function for Detailed Clothed Human Reconstruction With RGB‐D Input

ABSTRACT Realistic human reconstruction embraces an extensive range of applications as depth sensors advance. However, current state‐of‐the‐art methods with RGB‐D input still suffer from artefacts, such as noisy surfaces, non‐human shapes, and depth ambiguity, especially for the invisible parts. The...

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Bibliographic Details
Main Authors: Pengpeng Liu, Zhi Zeng, Qisheng Wang, Min Chen, Guixuan Zhang
Format: Article
Language:English
Published: Wiley 2025-06-01
Series:CAAI Transactions on Intelligence Technology
Subjects:
deep implicit function
depth‐enhanced attention
geometry‐enhanced
human reconstruction
RGB‐D
Online Access:https://doi.org/10.1049/cit2.70009
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Summary:ABSTRACT Realistic human reconstruction embraces an extensive range of applications as depth sensors advance. However, current state‐of‐the‐art methods with RGB‐D input still suffer from artefacts, such as noisy surfaces, non‐human shapes, and depth ambiguity, especially for the invisible parts. The authors observe the main issue is the lack of geometric semantics without using depth input priors fully. This paper focuses on improving the representation ability of implicit function, exploring an effective method to utilise depth‐related semantics effectively and efficiently. The proposed geometry‐enhanced implicit function enhances the geometric semantics with the extra voxel‐aligned features from point clouds, promoting the completion of missing parts for unseen regions while preserving the local details on the input. For incorporating multi‐scale pixel‐aligned and voxel‐aligned features, the authors use the Squeeze‐and‐Excitation attention to capture and fully use channel interdependencies. For the multi‐view reconstruction, the proposed depth‐enhanced attention explicitly excites the network to “sense” the geometric structure for a more reasonable feature aggregation. Experiments and results show that our method outperforms current RGB and depth‐based SOTA methods on the challenging data from Twindom and Thuman3.0, and achieves a detailed and completed human reconstruction, balancing performance and efficiency well.
ISSN:2468-2322

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