Presentation
Editable Physically-based Reflections in Raytraced Gaussian Radiance Fields
DescriptionRadiance fields such as 3D Gaussian Splatting allow real-time rendering of scenes captured from photos. They also reconstruct most specular reflections with high visual quality, but typically model them with “fake” reflected geometry, using primitives behind the reflector. Our goal is to correctly reconstruct the reflector and the reflected objects such as to make specular reflections editable; we present a proof of concept which exploits promising learning-based methods to extract diffuse and specular buffers from photos, as well as geometry and BRDF buffers. Our method builds on three key components. First, by using diffuse/specular buffers of input training views, we optimize a diffuse version of the scene and use path tracing to efficiently generate physically-based specular reflections. Second, we present a specialized training method that allows this process to converge. Finally, we present a fast ray tracing algorithm for 3D Gaussian primitives that enables efficient multi-bounce reflections. Our method reconstructs reflectors and reflected objects—including those not seen in the input images—in a unique scene representation. Our solution allows real-time, consistent editing of captured scenes with specular reflections, including multi-bounce effects, changing roughness etc. We mainly show results using ground truth buffers from synthetic scenes, and also preliminary results in real scenes with currently imperfect learning-based buffers.
Event Type
Technical Papers
TimeThursday, 18 December 20252:04pm - 2:15pm HKT
LocationMeeting Room S426+S427, Level 4