Skip to main content

Research Repository

Advanced Search

Sparse Metric-based Mesh Saliency

Hu, Shanfeng; Liang, Xiaohui; Shum, Hubert P.H.; Li, Frederick W.B.; Aslam, Nauman

Sparse Metric-based Mesh Saliency Thumbnail


Shanfeng Hu

Xiaohui Liang

Nauman Aslam


In this paper, we propose an accurate and robust approach to salient region detection for 3D polygonal surface meshes. The salient regions of a mesh are those that geometrically stand out from their contexts and therefore are semantically important for geometry processing and shape analysis. However, a suitable definition of region contexts for saliency detection remains elusive in the field, and the previous methods fail to produce saliency maps that agree well with human annotations. We address these issues by computing saliency in a global manner and enforcing sparsity for more accurate saliency detection. Specifically, we represent the geometry of a mesh using a metric that globally encodes the shape distances between every pair of local regions. We then propose a sparsity-enforcing rarity optimization problem, solving which allows us to obtain a compact set of salient regions globally distinct from each other. We build a perceptually motivated 3D eye fixation dataset and use a large-scale Schelling saliency dataset for extensive benchmarking of saliency detection methods. The results show that our computed saliency maps are closer to the ground-truth. To showcase the usefulness of our saliency maps for geometry processing, we apply them to feature point localization and achieve higher accuracy compared to established feature detectors.


Hu, S., Liang, X., Shum, H. P., Li, F. W., & Aslam, N. (2020). Sparse Metric-based Mesh Saliency. Neurocomputing, 400, 11-23.

Journal Article Type Article
Acceptance Date Feb 25, 2020
Online Publication Date Mar 10, 2020
Publication Date Aug 4, 2020
Deposit Date Mar 13, 2020
Publicly Available Date Mar 10, 2021
Journal Neurocomputing
Print ISSN 0925-2312
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 400
Pages 11-23


You might also like

Downloadable Citations