Gaussian Splatting for Efficient Satellite Image Photogrammetry
About
Recently, Gaussian splatting has emerged as a strong alternative to NeRF, demonstrating impressive 3D modeling capabilities while requiring only a fraction of the training and rendering time. In this paper, we show how the standard Gaussian splatting framework can be adapted for remote sensing, retaining its high efficiency. This enables us to achieve state-of-the-art performance in just a few minutes, compared to the day-long optimization required by the best-performing NeRF-based Earth observation methods. The proposed framework incorporates remote-sensing improvements from EO-NeRF, such as radiometric correction and shadow modeling, while introducing novel components, including sparsity, view consistency, and opacity regularizations.
Luca Savant Aira, Gabriele Facciolo, Thibaud Ehret• 2024
Related benchmarks
| Task | Dataset | Result | Rank | |
|---|---|---|---|---|
| Elevation reconstruction | DFC 2019 | JAX 004 Result0.7 | 31 | |
| Elevation reconstruction | IARPA 3D Mapping Challenge | IARPA Metric 0011.38 | 31 | |
| Appearance reconstruction | Satellite Surface Reconstruction IAPRA & JAX scenes | PSNR27.03 | 24 | |
| Height Estimation | Satellite Surface Reconstruction IAPRA & JAX scenes | MAE (m)6.01 | 24 | |
| Elevation Estimation | DFC JAX 2019 | MAE (AOI 004)0.89 | 8 | |
| Satellite Scene Reconstruction | DFC 2019 | MAE [m] (004)0.92 | 8 | |
| Surface Reconstruction | DFC19 | Chamfer Distance (CD)4.62 | 8 | |
| Surface Reconstruction | MVS3D | Chamfer Distance (CD)4.99 | 8 | |
| Elevation Estimation | IARPA 2016 | MAE (AOI 001)1.38 | 7 | |
| Novel View Synthesis | DFC JAX004 2019 (test) | PSNR22.76 | 3 |
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