This paper presents the TRICKY 2025 HouseCat6D Category-Level Object Pose Estimation Challenge, held in conjunction with the ICCV 2025 workshop on Transpar-ent and Reflective Objects in the Wild. The challenge ad-dresses the critical limitations of existing pose estimation systems when applied to non-Lambertian surfaces, such as glass and metal. Leveraging the HouseCat6D dataset com-prising realistic home environments with a diverse range of transparent and specular objects, the challenge pushes state-of-the-art algorithms to estimate object pose, scale, and shape in photometrically complex scenes. Unlike traditional benchmarks focused on texture-rich, opaque objects, this challenge emphasizes robustness under reflective high-lights, refractions, and partial transparency. By promoting research in these underexplored conditions, the challenge contributes toward generalizable and category-level object understanding in unconstrained real-world settings.
Li, W., Huang, J., Jung, H., Zhai, G., Zama Ramirez, P., Costanzino, A., et al. (2025). TRICKY 2025 HouseCat6D Object Pose Estimation Challenge with Specular and Transparent Surfaces [10.1109/ICCVW69036.2025.00349].
TRICKY 2025 HouseCat6D Object Pose Estimation Challenge with Specular and Transparent Surfaces
Pierluigi Zama Ramirez;Alex Costanzino;Fabio Tosi;Matteo Poggi;Luigi Di Stefano;
2025
Abstract
This paper presents the TRICKY 2025 HouseCat6D Category-Level Object Pose Estimation Challenge, held in conjunction with the ICCV 2025 workshop on Transpar-ent and Reflective Objects in the Wild. The challenge ad-dresses the critical limitations of existing pose estimation systems when applied to non-Lambertian surfaces, such as glass and metal. Leveraging the HouseCat6D dataset com-prising realistic home environments with a diverse range of transparent and specular objects, the challenge pushes state-of-the-art algorithms to estimate object pose, scale, and shape in photometrically complex scenes. Unlike traditional benchmarks focused on texture-rich, opaque objects, this challenge emphasizes robustness under reflective high-lights, refractions, and partial transparency. By promoting research in these underexplored conditions, the challenge contributes toward generalizable and category-level object understanding in unconstrained real-world settings.| File | Dimensione | Formato | |
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Li_TRICKY_2025_HouseCat6D_Object_Pose_Estimation_Challenge_with_Specular_and_ICCVW_2025_paper.pdf
embargo fino al 22/02/2028
Tipo:
Postprint / Author's Accepted Manuscript (AAM) - versione accettata per la pubblicazione dopo la peer-review
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6.35 MB
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