John Novatnack scite author profile

Three-dimensional geometric data play fundamental roles in many computer vision applications. However, their scale-dependent nature, i.e. the relative variation in the spatial extents of local geometric structures, is often overlooked. In this paper we present a comprehensive framework for exploiting this 3D geometric scale variability. Specifically, we focus on detecting scale-dependent geometric features on triangular mesh models of arbitrary topology. The key idea of our approach is to analyze the geometric scale variability of a given 3D model in the scale-space of a dense and regular 2D representation of its surface geometry encoded by the surface normals. We derive novel corner and edge detectors, as well as an automatic scale selection method, that acts upon this representation to detect salient geometric features and determine their intrinsic scales. We evaluate the effectiveness and robustness of our method on a number of models of different topology. The results show that the resulting scale-dependent geometric feature set provides a reliable basis for constructing a rich but concise representation of the geometric structure at hand.

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3D Geometric Scale Variability in Range Images: Features and Descriptors

Bariya

Novatnack

Schwartz

et al. 2012

Int J Comput Vis

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Stable Bounded Canonical Sets and Image Matching

Novatnack

Denton

Shokoufandeh

et al. 2005

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Extracting 3D Shape Features in Discrete Scale-Space

Novatnack

Nishino

Shokoufandeh

2006

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John Novatnack

Scale-Dependent/Invariant Local 3D Shape Descriptors for Fully Automatic Registration of Multiple Sets of Range Images

Scale-Dependent 3D Geometric Features

3D Geometric Scale Variability in Range Images: Features and Descriptors

Stable Bounded Canonical Sets and Image Matching

Extracting 3D Shape Features in Discrete Scale-Space

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