Detection and Pose Estimation of flat, Texture-less Industry Objects on HoloLens using synthetic Training
In Scandinavian Conference on Image Analysis 2023 (pp. 569-585). Cham: Springer Nature Switzerland Current state-of-the-art 6d pose estimation is too compute intensive to be deployed on edge devices, such as Microsoft HoloLens (2) or Apple iPad, both used for an increasing number of augmented realit...
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| creator | Pöllabauer, Thomas Rücker, Fabian Franek, Andreas Gorschlüter, Felix |
| description | In Scandinavian Conference on Image Analysis 2023 (pp. 569-585).
Cham: Springer Nature Switzerland Current state-of-the-art 6d pose estimation is too compute intensive to be
deployed on edge devices, such as Microsoft HoloLens (2) or Apple iPad, both
used for an increasing number of augmented reality applications. The quality of
AR is greatly dependent on its capabilities to detect and overlay geometry
within the scene. We propose a synthetically trained client-server-based
augmented reality application, demonstrating state-of-the-art object pose
estimation of metallic and texture-less industry objects on edge devices.
Synthetic data enables training without real photographs, i.e. for
yet-to-be-manufactured objects. Our qualitative evaluation on an AR-assisted
sorting task, and quantitative evaluation on both renderings, as well as
real-world data recorded on HoloLens 2, sheds light on its real-world
applicability. |
| doi_str_mv | 10.48550/arxiv.2402.04979 |
| format | Article |
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Cham: Springer Nature Switzerland Current state-of-the-art 6d pose estimation is too compute intensive to be
deployed on edge devices, such as Microsoft HoloLens (2) or Apple iPad, both
used for an increasing number of augmented reality applications. The quality of
AR is greatly dependent on its capabilities to detect and overlay geometry
within the scene. We propose a synthetically trained client-server-based
augmented reality application, demonstrating state-of-the-art object pose
estimation of metallic and texture-less industry objects on edge devices.
Synthetic data enables training without real photographs, i.e. for
yet-to-be-manufactured objects. Our qualitative evaluation on an AR-assisted
sorting task, and quantitative evaluation on both renderings, as well as
real-world data recorded on HoloLens 2, sheds light on its real-world
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Cham: Springer Nature Switzerland Current state-of-the-art 6d pose estimation is too compute intensive to be
deployed on edge devices, such as Microsoft HoloLens (2) or Apple iPad, both
used for an increasing number of augmented reality applications. The quality of
AR is greatly dependent on its capabilities to detect and overlay geometry
within the scene. We propose a synthetically trained client-server-based
augmented reality application, demonstrating state-of-the-art object pose
estimation of metallic and texture-less industry objects on edge devices.
Synthetic data enables training without real photographs, i.e. for
yet-to-be-manufactured objects. Our qualitative evaluation on an AR-assisted
sorting task, and quantitative evaluation on both renderings, as well as
real-world data recorded on HoloLens 2, sheds light on its real-world
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Cham: Springer Nature Switzerland Current state-of-the-art 6d pose estimation is too compute intensive to be
deployed on edge devices, such as Microsoft HoloLens (2) or Apple iPad, both
used for an increasing number of augmented reality applications. The quality of
AR is greatly dependent on its capabilities to detect and overlay geometry
within the scene. We propose a synthetically trained client-server-based
augmented reality application, demonstrating state-of-the-art object pose
estimation of metallic and texture-less industry objects on edge devices.
Synthetic data enables training without real photographs, i.e. for
yet-to-be-manufactured objects. Our qualitative evaluation on an AR-assisted
sorting task, and quantitative evaluation on both renderings, as well as
real-world data recorded on HoloLens 2, sheds light on its real-world
applicability.</abstract><doi>10.48550/arxiv.2402.04979</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Artificial Intelligence Computer Science - Computer Vision and Pattern Recognition |
| title | Detection and Pose Estimation of flat, Texture-less Industry Objects on HoloLens using synthetic Training |
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