PrEditor3D: Fast and Precise 3D Shape Editing

Ziya Erkoç; Can Gümeli; Chaoyang Wang; Matthias Nießner; Angela Dai; Peter Wonka; Hsin-Ying Lee; Peiye Zhuang

2025 CVPR CVPR 2025

PrEditor3D: Fast and Precise 3D Shape Editing

Abstract

We propose a training-free approach to 3D editing that enables the editing of a single shape and the reconstruction of a mesh within a few minutes. Leveraging 4-view images, user-guided text prompts, and rough 2D masks, our method produces an edited 3D mesh that aligns with the prompt. For this, our approach performs synchronized multi-view image editing in 2D. However, targeted regions to be edited are ambiguous due to projection from 3D to 2D. To ensure precise editing only in intended regions, we develop a 3D segmentation pipeline that detects edited areas in 3D space. Additionally, we introduce a merging algorithm to seamlessly integrate edited 3D regions with original input. Extensive experiments demonstrate the superiority of our method over previous approaches, enabling fast, high-quality editing while preserving unintended regions.

🌉 Interdisciplinary Bridge — Computer Science and Computer Vision and Machine Learning

🧭 Keyword Pioneer — multi-view image editing

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Deep Learning, Healthcare & Medicine, Interdisciplinary, Machine Learning, Mathematics & Optimization, Natural Language Processing, Robotics

Authors

Ziya Erkoç , Can Gümeli , Chaoyang Wang , Matthias Nießner , Angela Dai , Peter Wonka , Hsin-Ying Lee , Peiye Zhuang

Topics

Machine Learning > Application Areas > Domain Adaptation Computer Vision > Analysis > 3D Vision Computer Vision > Processing > Image Editing Computer Science > Applications > Computer Graphics

Keywords

3d segmentation text prompt mesh reconstruction text-guided editing 3d editing multi-view image editing 3d shape editing

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