Pavel Haluza scite author profile

We introduce T-LESS, a new public dataset for estimating the 6D pose, i.e. translation and rotation, of texture-less rigid objects. The dataset features thirty industry-relevant objects with no significant texture and no discriminative color or reflectance properties. The objects exhibit symmetries and mutual similarities in shape and/or size. Compared to other datasets, a unique property is that some of the objects are parts of others. The dataset includes training and test images that were captured with three synchronized sensors, specifically a structured-light and a time-of-flight RGB-D sensor and a high-resolution RGB camera. There are approximately 39K training and 10K test images from each sensor. Additionally, two types of 3D models are provided for each object, i.e. a manually created CAD model and a semi-automatically reconstructed one. Training images depict individual objects against a black background. Test images originate from twenty test scenes having varying complexity, which increases from simple scenes with several isolated objects to very challenging ones with multiple instances of several objects and with a high amount of clutter and occlusion. The images were captured from a systematically sampled view sphere around the object/scene, and are annotated with accurate ground truth 6D poses of all modeled objects. Initial evaluation results indicate that the state of the art in 6D object pose estimation has ample room for improvement, especially in difficult cases with significant occlusion. The T-LESS dataset is available online at cmp.felk.cvut.cz/t-less. The visual appearance of a texture-less object is dominated by its global shape, color, reflectance properties, and the configuration of light sources. The lack of texture implies that the object cannot be reliably recognized with traditional techniques relying on photometric local patch detectors and descriptors [9,31]. Instead, recent approaches that can deal with texture-less objects have focused on local 3D feature description [33,51,19], and semi-global or arXiv:1701.05498v1 [cs.CV]

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T-LESS: An RGB-D Dataset for 6D Pose Estimation of Texture-less Objects

Hodaň¹,

Haluza²,

Obdržálek³

et al. 2017

Preprint

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Design of methodology for incremental compiler construction

Haluza¹,

Rybička²

2014

Acta Univ. Agric. Silvic. Mendelianae Brun.

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Pavel Haluza

T-LESS: An RGB-D Dataset for 6D Pose Estimation of Texture-Less Objects

T-LESS: An RGB-D Dataset for 6D Pose Estimation of Texture-less Objects

Design of methodology for incremental compiler construction

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