Transparency-Aware Segmentation of Glass Objects to Train RGB-Based Pose Estimators

Weidenbach, Maira; Laue, Tim; Frese, Udo

doi:10.3390/s24020432

Sensors

2024

DOI: 10.3390/s24020432

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Transparency-Aware Segmentation of Glass Objects to Train RGB-Based Pose Estimators

Maira Weidenbach,

Tim Laue,

Udo Frese

Abstract: Robotic manipulation requires object pose knowledge for the objects of interest. In order to perform typical household chores, a robot needs to be able to estimate 6D poses for objects such as water glasses or salad bowls. This is especially difficult for glass objects, as for these, depth data are mostly disturbed, and in RGB images, occluded objects are still visible. Thus, in this paper, we propose to redefine the ground-truth for training RGB-based pose estimators in two ways: (a) we apply a transparency-a… Show more

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EBFA-6D: End-to-End Transparent Object 6D Pose Estimation Based on a Boundary Feature Augmented Mechanism

Jiang,

Zhu,

Gao

et al. 2024

Sensors

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Transparent objects, commonly encountered in everyday environments, present significant challenges for 6D pose estimation due to their unique optical properties. The lack of inherent texture and color complicates traditional vision methods, while the transparency prevents depth sensors from accurately capturing geometric details. We propose EBFA-6D, a novel end-to-end 6D pose estimation framework that directly predicts the 6D poses of transparent objects from a single RGB image. To overcome the challenges introduced by transparency, we leverage the high contrast at object boundaries inherent to transparent objects by proposing a boundary feature augmented mechanism. We further conduct a bottom-up feature fusion to enhance the location capability of EBFA-6D. EBFA-6D is evaluated on the ClearPose dataset, outperforming the existing methods in accuracy while achieving an inference speed near real-time. The results demonstrate that EBFA-6D provides an efficient and effective solution for accurate 6D pose estimation of transparent objects.

show abstract

EBFA-6D: End-to-End Transparent Object 6D Pose Estimation Based on a Boundary Feature Augmented Mechanism

Jiang,

Zhu,

Gao

et al. 2024

Sensors

View full text Add to dashboard Cite

show abstract

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Transparency-Aware Segmentation of Glass Objects to Train RGB-Based Pose Estimators

Cited by 1 publication

References 40 publications

EBFA-6D: End-to-End Transparent Object 6D Pose Estimation Based on a Boundary Feature Augmented Mechanism

EBFA-6D: End-to-End Transparent Object 6D Pose Estimation Based on a Boundary Feature Augmented Mechanism

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