Neuralangelo: High-Fidelity Neural Surface Reconstruction
About
Neural surface reconstruction has been shown to be powerful for recovering dense 3D surfaces via image-based neural rendering. However, current methods struggle to recover detailed structures of real-world scenes. To address the issue, we present Neuralangelo, which combines the representation power of multi-resolution 3D hash grids with neural surface rendering. Two key ingredients enable our approach: (1) numerical gradients for computing higher-order derivatives as a smoothing operation and (2) coarse-to-fine optimization on the hash grids controlling different levels of details. Even without auxiliary inputs such as depth, Neuralangelo can effectively recover dense 3D surface structures from multi-view images with fidelity significantly surpassing previous methods, enabling detailed large-scale scene reconstruction from RGB video captures.
Related benchmarks
| Task | Dataset | Result | Rank | |
|---|---|---|---|---|
| Surface Reconstruction | DTU | Chamfer Distance (CD)1.07 | 120 | |
| Novel View Synthesis | Mip-NeRF 360 | PSNR25.08 | 102 | |
| Surface Reconstruction | DTU 1.0 (test) | Chamfer Distance (Scene 24)0.38 | 35 | |
| Surface Reconstruction | DTU | Scan 24 Metric Value0.37 | 34 | |
| Surface Reconstruction | Tanks&Temples | Mean50 | 27 | |
| 3D Scene Reconstruction | ScanNet v2 (test) | Accuracy0.245 | 26 | |
| View Synthesis | UrbanScene3D Sci-Art | PSNR19.1 | 22 | |
| Geometry Reconstruction | DTU (full) | Error Metric 240.37 | 17 | |
| 3D Shape Reconstruction | DTU (standard 15-scene split) | Scene 24 Error0.37 | 14 | |
| Novel View Synthesis | Building Mill19 (test) | SSIM58.2 | 13 |