Binary descriptor based on heat diffusion for Non-rigid shape analysis
Wang, X., Sohel, F., Bennamoun, M. and Lei, H. (2015) Binary descriptor based on heat diffusion for Non-rigid shape analysis. Lecture Notes in Computer Science, 9431 . pp. 751-761.
*Subscription may be required
This paper presents an efficient feature point descriptor for non-rigid shape analysis. The descriptor is developed based on the properties of the heat diffusion process on a shape. We use, for the first time, the Heat Kernel Signature of a particular time scale to define the scalar field on a manifold. Then, motivated by the successful use of a local reference frame for rigid shape analysis, we construct a repetitive local polar coordinate system, which is invariant under isometric deformations. Finally, a binary descriptor is derived by comparing the intensities of the neighboring points for each feature point. We show that the descriptor is highly discriminative and can be computed simply using ‘intensity comparisons’ on a shape. Furthermore, its similarity can be evaluated using the Hamming distance, which is very efficient to compute compared with the commonly used L2 norm. Our experiments demonstrate a superior performance compared to existing techniques on the standard benchmark TOSCA.
|Publication Type:||Journal Article|
|Murdoch Affiliation:||School of Engineering and Information Technology|
|Copyright:||2016 Springer International Publishing Switzerland|
|Other Information:||Book Title: Image and Video Technology: 7th Pacific-Rim Symposium, PSIVT 2015, Auckland, New Zealand, November 25-27, 2015, Revised Selected Papers|
|Item Control Page|