| Submission name | |||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|
| Submission time (UTC) | Sept. 4, 2023, 7:53 a.m. | ||||||||||
| User | agimus-happypose | ||||||||||
| Task | Model-based 6D localization of unseen objects | ||||||||||
| Dataset | LM-O | ||||||||||
| Training model type | Default | ||||||||||
| Training image type | Synthetic (provided) | ||||||||||
| Description | Submission prepared by Médéric Fourmy, Elliot Maître, Yann Labbé | ||||||||||
| Evaluation scores |
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| User | agimus-happypose |
|---|---|
| Publication | Labbé et al.: MegaPose: 6D Pose Estimation of Novel Objects via Render & Compare, CoRL 2022 |
| Implementation | https://github.com/agimus-project/happypose |
| Training image modalities | RGB |
| Test image modalities | RGB |
| Description | This submission was prepared by Mederic Fourmy, Elliot Maître, Lucas Manuelli, Yann Labbé In this submission, CNOS_fastSAM [A] detections (default detections for Task 4) are used as input to the MegaPose pose estimation method [B]. For each detection, we run the MegaPose coarse network and refine the 1-best coarse estimate with 5 refiner iterations. The following improvement has been made over the original MegaPose paper [B]: Instructions to reproduce these results will be made available on https://github.com/agimus-project/happypose. [A] Nguyen et al.: CNOS: A Strong Baseline for CAD-based Novel Object Segmentation, arXiv 2023 This work was granted access to the HPC resources of IDRIS under the allocation 011014301 made by GENCI |
| Computer specifications | NVIDIA Tesla V100 32Go |