| User | epi |
|---|---|
| Publication | |
| Implementation | |
| Training image modalities | RGB |
| Test image modalities | RGB |
| Description | The presented results were achieved by FoundPose with the MegaPose [D] refinement (row 7 of Table 1 in [A]). In this submission, FoundPose uses default CNOS-FastSAM [B] segmentations provided for BOP'23. For pose estimation, the method uses features from layer 18 of DINOv2 (ViT-L) with registers [C]. Note that FoundPose doesn't do any task-specific training -- it only uses frozen FastSAM (via CNOS) and frozen DINOv2. The only component that is used in this submission and trained in a task-specific manner is the MegaPose refiner (we used weights from the official MegaPose repository and didn't train them further). [A] Anonymous: FoundPose: Unseen Object Pose Estimation with Foundation Features. [B] Nguyen et al.: CNOS: A Strong Baseline for CAD-based Novel Object Segmentation, ICCVW 2023. [C] Darcet et al.: Vision transformers need registers, arXiv 2023. [D] Labbé et al.: MegaPose: 6D Pose Estimation of Novel Objects via Render & Compare, CoRL 2022. |
| Computer specifications | Tesla P100 16GB |
| Date | Submission name | Dataset | ||
|---|---|---|---|---|
| 2023-11-15 18:05 | FoundPose+MegaPose | ITODD | ||
| 2023-11-15 18:31 | FoundPose+MegaPose | HB | ||
| 2024-01-28 19:13 | FoundPose+MegaPose | LM-O | ||
| 2024-01-29 08:53 | FoundPose+MegaPose | YCB-V | ||
| 2024-01-29 08:53 | FoundPose+MegaPose | T-LESS | ||
| 2024-01-29 08:54 | FoundPose+MegaPose | TUD-L | ||
| 2024-01-29 08:54 | FoundPose+MegaPose | IC-BIN |