Sampling Neural Radiance Fields
for Refractive Objects
SIGGRAPH Asia 2022 Technical Communications

overview

Abstract

Recently, differentiable volume rendering in neural radiance fields (NeRF) has gained a lot of popularity, and its variants have attained many impressive results. However, existing methods usually assume the scene is a homogeneous volume so that a ray is cast along the straight path. In this work, the scene is instead a heterogeneous volume with a piecewise-constant refractive index, where the path will be curved if it intersects the different refractive indices. For novel view synthesis of refractive objects, our NeRF-based framework aims to optimize the radiance fields of bounded volume and boundary from multi-view posed images with refractive object silhouettes. To tackle this challenging problem, the refractive index of a scene is reconstructed from silhouettes. Given the refractive index, we extend the stratified and hierarchical sampling techniques in NeRF to allow drawing samples along a curved path tracked by the Eikonal equation. The results indicate that our framework outperforms the state-of-the-art method both quantitatively and qualitatively, demonstrating better performance on the perceptual similarity metric and an apparent improvement in the rendering quality on several synthetic and real scenes.

Results

Synthetic Scenes

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Torus.
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Ship.
Ship model ©Loïc Norgeot

Real Scenes

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Dolphin.
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Pen.
Data provided by Eikonal Fields for Refractive Novel-View Synthesis, SIGGRAPH 2022 (Conference Proceedings)

BibTeX

Acknowledgements

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