核心概念
Neural fields and triangular meshes are combined in MagicClay to enable precise, artist-friendly sculpting with text prompts.
摘要
MagicClay introduces a novel sculpting tool that combines neural fields and triangular meshes. The hybrid approach allows for precise sculpting of regions based on textual prompts while maintaining consistency between representations. By optimizing both mesh and Signed Distance Field (SDF) jointly, MagicClay achieves superior geometry generation compared to existing methods. The framework balances consistency and regularization throughout the shape optimization process, resulting in high-quality generated geometry. Leveraging recent advancements in differentiable mesh reconstruction, MagicClay enables adaptive allocation of triangles based on the SDF, leading to improved geometric quality. The tool offers novel control over sequential prompt-based edits on the same mesh for the first time.
統計資料
Fig. 1. MagicClay introduces a novel sculpting tool, employing a hybrid mesh-SDF representation.
Using this representation, we introduce MagicClay — an artist friendly tool for sculpting regions of a mesh according to textual prompts while keeping other regions untouched.
We demonstrate superior generated geometry compared to the state-of-the-art, and novel consistent control, allowing sequential prompt-based edits to the same mesh for the first time.
引述
"MagicClay optimizes a mesh and an SDF jointly in every step throughout the generation process."
"Our framework carefully and efficiently balances consistency between the representations and regularizations in every step of the shape optimization."
"The hybrid approach and sculpting tool demonstrate how the merits of both leading representations can be combined."