6DOF Pose Estimation of a 3D Rigid Object based on Edge-enhanced Point Pair Features
This work addresses pose estimation for robotics and computer vision applications, but it appears incremental as it builds on the established PPF framework.
The paper tackled 6D pose estimation of geometrically complex, occluded, and symmetrical objects by proposing an edge-enhanced point pair feature method with targeted down-sampling and pose validation, achieving superior results on challenging datasets.
The point pair feature (PPF) is widely used for 6D pose estimation. In this paper, we propose an efficient 6D pose estimation method based on the PPF framework. We introduce a well-targeted down-sampling strategy that focuses more on edge area for efficient feature extraction of complex geometry. A pose hypothesis validation approach is proposed to resolve the symmetric ambiguity by calculating edge matching degree. We perform evaluations on two challenging datasets and one real-world collected dataset, demonstrating the superiority of our method on pose estimation of geometrically complex, occluded, symmetrical objects. We further validate our method by applying it to simulated punctures.