SPEAL: Skeletal Prior Embedded Attention Learning for Cross-Source Point Cloud Registration

SPEAL는 해부학적 선입견을 활용하여 점군의 지오메트리 복잡성을 캡처하고 등록을 용이하게 합니다.

Abstract: Point cloud registration in 3D computer vision remains unexplored in cross-source point clouds and unstructured scenes. Challenges include noise, outliers, scale, and density variations. SPEAL leverages skeletal representations for effective learning of intrinsic topologies. Introduction: Point cloud registration is essential in graphics, vision, and robotics. Recent interest in learning-based methods for point cloud registration. Challenges in practical applications and advances in point cloud acquisition. Data Extraction: "Extensive quantitative and qualitative experiments are conducted to demonstrate our approach’s superiority and robustness on both cross-source and same-source datasets." Related Work: Overview of learning-based registration methods and transformers in point cloud registration. Method: Problem statement, overview, and notations of the SPEAL method. Experiments: Datasets used, experimental setup, metrics, implementation details, and results for both cross-source and same-source datasets. Analysis: Effectiveness of skeletal priors, robustness of SPEAL, ablation studies, and conclusion.

현재 방법들이 모든 세 가지 어려운 상황에서 SPEAL보다 성능이 떨어집니다. SPEAL은 낮은 겹침 조건에서 뛰어난 성능을 보여줍니다. SPEAL은 다른 방법들보다 더 높은 인라이어 비율을 달성합니다.

"Our method introduces SEM to extract the skeleton points and their skeletal features." "SPEAL consistently outperforms the other methods."