Interactive geometry editing of Neural Radiance Fields

Neural Radiance Fields (NeRF) have recently emerged as a promising approach for synthesizing highly realistic images from 3D scenes. This technology has shown impressive results in capturing intricate details and producing photorealistic renderings. However, one of the limitations of traditional NeRF approaches is the difficulty in editing and manipulating the geometry of the scene once it has been captured. This restriction hinders creative freedom and practical applicability.

In this paper, we propose a method that enables interactive geometry editing for neural radiance fields manipulation. We use two proxy cages (inner cage and outer cage) to edit a scene. The inner cage defines the operation target, and the outer cage defines the adjustment space. Various operations apply to the two cages. After cage selection, operations on the inner cage lead to the desired transformation of the inner cage and adjustment of the outer cage. Users can edit the scene with translation, rotation, scaling, or combinations. The operations on the corners and edges of the cage are also supported. Our method does not need any explicit 3D geometry representations. The interactive geometry editing applies directly to the implicit neural radiance fields. Extensive experimental results demonstrate the effectiveness of our approach.