English

Rotational Projection Statistics for 3D Local Surface Description and Object Recognition

Computer Vision and Pattern Recognition 2013-04-12 v1

Abstract

Recognizing 3D objects in the presence of noise, varying mesh resolution, occlusion and clutter is a very challenging task. This paper presents a novel method named Rotational Projection Statistics (RoPS). It has three major modules: Local Reference Frame (LRF) definition, RoPS feature description and 3D object recognition. We propose a novel technique to define the LRF by calculating the scatter matrix of all points lying on the local surface. RoPS feature descriptors are obtained by rotationally projecting the neighboring points of a feature point onto 2D planes and calculating a set of statistics (including low-order central moments and entropy) of the distribution of these projected points. Using the proposed LRF and RoPS descriptor, we present a hierarchical 3D object recognition algorithm. The performance of the proposed LRF, RoPS descriptor and object recognition algorithm was rigorously tested on a number of popular and publicly available datasets. Our proposed techniques exhibited superior performance compared to existing techniques. We also showed that our method is robust with respect to noise and varying mesh resolution. Our RoPS based algorithm achieved recognition rates of 100%, 98.9%, 95.4% and 96.0% respectively when tested on the Bologna, UWA, Queen's and Ca' Foscari Venezia Datasets.

Keywords

Cite

@article{arxiv.1304.3192,
  title  = {Rotational Projection Statistics for 3D Local Surface Description and Object Recognition},
  author = {Yulan Guo and Ferdous Sohel and Mohammed Bennamoun and Min Lu and Jianwei Wan},
  journal= {arXiv preprint arXiv:1304.3192},
  year   = {2013}
}

Comments

The final publication is available at link.springer.com International Journal of Computer Vision 2013

R2 v1 2026-06-21T23:57:47.124Z