| Submission name | |||||||||||
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| Submission time (UTC) | March 3, 2026, 2:42 p.m. | ||||||||||
| User | ahamza | ||||||||||
| Task | Model-based 6D localization of seen objects | ||||||||||
| Dataset | ITODD | ||||||||||
| Description | |||||||||||
| Evaluation scores |
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| User | ahamza |
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| Publication | Generative 6D pose estimation via conditional flow matching - https://arxiv.org/abs/2602.19719 |
| Implementation | Pytorch |
| Training image modalities | RGB-D |
| Test image modalities | RGB-D |
| Description | Training data: real + provided PBR Used 3D models: CAD models for T-LESS and ITODD, default models for the other datasets. Setting: One network per dataset was trained. We use predicted segmentation masks from the "Model-based 2D segmentation of seen objects" track. Specifically, we use segmentation results from ZebraPose and select the mask with the highest confidence score. We use a generative approach to perform 6D pose estimation via conditional flow matching. An overlap-aware encoder based on PTv3 for geometric feature extraction. Frozen DINOv2 features to resolve symmetry ambiguities. A DiT-based flow model to predict the velocity fields in order to align point clouds. RANSAC-based registration for robust pose estimation. Poses are refined via ICP. Reference: Generative 6D pose estimation via conditional flow matching - https://arxiv.org/abs/2602.19719 Authors: Amir Hamza, Davide Boscaini, Weihang Li, Benjamin Busam, Fabio Poiesi |
| Computer specifications | NVIDIA A100 SXM4 64GB GPU, 32-core Intel Xeon CPU |