MatSwap: Light-aware material transfers in images
This work addresses the problem of material editing in images for computer vision and graphics applications, providing an efficient and effective solution that does not require cumbersome text engineering or extensive manual annotations.
The authors tackled the problem of transferring materials to designated surfaces in an image photorealistically, achieving seamless integration of desired materials into target locations while retaining the scene's identity. Their method compares favorably to recent work both qualitatively and quantitatively.
We present MatSwap, a method to transfer materials to designated surfaces in an image photorealistically. Such a task is non-trivial due to the large entanglement of material appearance, geometry, and lighting in a photograph. In the literature, material editing methods typically rely on either cumbersome text engineering or extensive manual annotations requiring artist knowledge and 3D scene properties that are impractical to obtain. In contrast, we propose to directly learn the relationship between the input material -- as observed on a flat surface -- and its appearance within the scene, without the need for explicit UV mapping. To achieve this, we rely on a custom light- and geometry-aware diffusion model. We fine-tune a large-scale pre-trained text-to-image model for material transfer using our synthetic dataset, preserving its strong priors to ensure effective generalization to real images. As a result, our method seamlessly integrates a desired material into the target location in the photograph while retaining the identity of the scene. We evaluate our method on synthetic and real images and show that it compares favorably to recent work both qualitatively and quantitatively. We release our code and data on https://github.com/astra-vision/MatSwap