This paper presents Neural-GASh, a novel real-time shading pipeline for 3D meshes, that leverages a neural radiance field architecture to perform image-based rendering (IBR) using Conformal Geometric Algebra (CGA)-encoded vertex information as input. Unlike traditional Precomputed Radiance Transfer (PRT) methods, that require expensive offline precomputations, our learned model directly consumes CGA-based representations of vertex positions and normals, enabling dynamic scene shading without precomputation. Integrated seamlessly into the Unity engine, Neural-GASh facilitates accurate shading of animated and deformed 3D meshes-capabilities essential for dynamic, interactive environments. The shading of the scene is implemented within Unity, where rotation of scene lights in terms of Spherical Harmonics is also performed optimally using CGA. This neural field approach is designed to deliver fast and efficient light transport simulation across diverse platforms, including mobile and VR, while preserving high rendering quality. Additionally, we evaluate our method on scenes generated via 3D Gaussian splats, further demonstrating the flexibility and robustness of Neural-GASh in diverse scenarios. Performance is evaluated in comparison to conventional PRT, demonstrating competitive rendering speeds even with complex geometries.

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Neural-GASh: A CGA-Based Neural Radiance Prediction Pipeline for Real-Time Shading

  • Efstratios Geronikolakis,
  • Manos Kamarianakis,
  • Antonis Protopsaltis,
  • George Papagiannakis

摘要

This paper presents Neural-GASh, a novel real-time shading pipeline for 3D meshes, that leverages a neural radiance field architecture to perform image-based rendering (IBR) using Conformal Geometric Algebra (CGA)-encoded vertex information as input. Unlike traditional Precomputed Radiance Transfer (PRT) methods, that require expensive offline precomputations, our learned model directly consumes CGA-based representations of vertex positions and normals, enabling dynamic scene shading without precomputation. Integrated seamlessly into the Unity engine, Neural-GASh facilitates accurate shading of animated and deformed 3D meshes-capabilities essential for dynamic, interactive environments. The shading of the scene is implemented within Unity, where rotation of scene lights in terms of Spherical Harmonics is also performed optimally using CGA. This neural field approach is designed to deliver fast and efficient light transport simulation across diverse platforms, including mobile and VR, while preserving high rendering quality. Additionally, we evaluate our method on scenes generated via 3D Gaussian splats, further demonstrating the flexibility and robustness of Neural-GASh in diverse scenarios. Performance is evaluated in comparison to conventional PRT, demonstrating competitive rendering speeds even with complex geometries.