Bibliographic Information: Slimani, K., Tamadazte, B., & Achard, C. (2024). LoGDesc: Local geometric features aggregation for robust point cloud registration. arXiv preprint arXiv:2410.02420v1.
Research Objective: This paper proposes a new hybrid descriptor, LoGDesc, for 3D point cloud registration. LoGDesc aims to improve registration robustness, particularly in the presence of noise and low overlap between point clouds.
Methodology: LoGDesc combines local geometric features and learning-based feature propagation. It first extracts geometric properties (planarity, anisotropy, omnivariance) using PCA and estimates normal vectors from triangles formed by neighboring points. These features are then propagated locally to globally using KNN-based graphs and a self-attention mechanism. The registration pipeline integrates LoGDesc with a normal encoder attention mechanism, a matching module based on a differentiable transport algorithm, and the Farthest Sampling-guided Registration (FSR) module for transformation estimation.
Key Findings: Experiments on ModelNet40, Stanford Bunny, MVP-RG, and KITTI datasets demonstrate that LoGDesc outperforms state-of-the-art methods, particularly in handling noisy and partially overlapping point clouds. Ablation studies highlight the contribution of each geometric feature to the descriptor's performance.
Main Conclusions: LoGDesc effectively addresses challenges in point cloud registration by combining local geometric features with learning-based feature propagation. The method exhibits robustness to noise, low overlap, and varying point densities, making it suitable for various applications like robotics and medical imaging.
Significance: This research contributes to the field of 3D vision and point cloud processing by introducing a robust and efficient descriptor for point cloud registration. The proposed method has the potential to improve applications that rely on accurate 3D scene reconstruction and understanding.
Limitations and Future Research: The authors acknowledge the computational cost associated with attention mechanisms for large point clouds and plan to address this limitation in future work. They also aim to extend LoGDesc to other robotics tasks such as object recognition, visual servoing, and 6 DoF multi-object pose estimation.
Para Outro Idioma
do conteúdo original
arxiv.org
Principais Insights Extraídos De
by Karim Sliman... às arxiv.org 10-04-2024
https://arxiv.org/pdf/2410.02420.pdfPerguntas Mais Profundas