핵심 개념
The proposed TransPose framework exploits Transformer Encoder with a geometry-aware module to develop better learning of point cloud feature representations for accurate 6D object pose estimation.
초록
The paper proposes a novel 6D pose estimation framework called TransPose that leverages Transformer Encoder with a geometry-aware module to effectively extract and utilize local and global geometry features from point cloud data.
Key highlights:
- The framework first uniformly samples the point cloud into several local regions and extracts local neighborhood features using a graph convolution network-based feature extractor.
- To capture global information and improve robustness to occlusion, the local features are fed into a Transformer Encoder, which performs global information propagation.
- A geometry-aware module is introduced in the Transformer Encoder to provide effective constraints for point cloud feature learning, enabling the global information exchange to be tightly coupled with the 6D pose task.
- Extensive experiments on LineMod, Occlusion LineMod and YCB-Video datasets demonstrate the effectiveness of the proposed TransPose framework, achieving competitive results compared to state-of-the-art methods.
통계
The paper reports the following key metrics:
On the LineMod dataset, the proposed method achieves an average accuracy of 99.40% on the ADD(-S) metric.
On the Occlusion LineMod dataset, the proposed method achieves an average accuracy of 65.54% on the ADD(-S) metric.
On the YCB-Video dataset, the proposed method achieves an AUC score of 93.1% on the ADD-S metric.
인용구
"Efficient and accurate estimation of objects' pose is essential in numerous practical applications."
"How to extract and utilize the local and global geometry features in depth information is crucial to achieve accurate predictions."
"The inductive bias plays the role of an inherent constraint in traditional visual models."