MatMart: Material Reconstruction of 3D Objects via Diffusion
Abstract
Applying diffusion models to physically-based material estimation and generation has recently gained prominence. In this paper, we propose , a novel material reconstruction framework for 3D objects, offering the following advantages. First, \ adopts a two-stage reconstruction, starting with accurate material prediction from inputs and followed by prior-guided material generation for unobserved views, yielding high-fidelity results. Second, by utilizing progressive inference alongside the proposed view-material cross-attention (VMCA), \ enables reconstruction from an arbitrary number of input images, demonstrating strong scalability and flexibility. Finally, \ achieves both material prediction and generation capabilities through end-to-end optimization of a single diffusion model, without relying on additional pre-trained models, thereby exhibiting enhanced stability across various types of objects. Extensive experiments demonstrate that \ achieves superior performance in material reconstruction compared to existing methods.
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