Title :
Optimizing over Radial Kernels on Compact Manifolds
Author :
Jayasumana, Sadeep ; Hartley, Richard ; Salzmann, Mathieu ; Hongdong Li ; Harandi, Mehrtash
Author_Institution :
Australian Nat. Univ., Canberra, ACT, Australia
Abstract :
We tackle the problem of optimizing over all possible positive definite radial kernels on Riemannian manifolds for classification. Kernel methods on Riemannian manifolds have recently become increasingly popular in computer vision. However, the number of known positive definite kernels on manifolds remain very limited. Furthermore, most kernels typically depend on at least one parameter that needs to be tuned for the problem at hand. A poor choice of kernel, or of parameter value, may yield significant performance drop-off. Here, we show that positive definite radial kernels on the unit n-sphere, the Grassmann manifold and Kendall´s shape manifold can be expressed in a simple form whose parameters can be automatically optimized within a support vector machine framework. We demonstrate the benefits of our kernel learning algorithm on object, face, action and shape recognition.
Keywords :
computer vision; face recognition; learning (artificial intelligence); object recognition; shape recognition; support vector machines; Grassmann manifold; Kendalls shape manifold; Riemannian manifolds; action recognition; compact manifolds; computer vision; face recognition; kernel learning algorithm; kernel methods; object recognition; positive definite radial kernels; shape recognition; support vector machine framework; unit n-sphere; Computer vision; Extraterrestrial measurements; Hilbert space; Kernel; Manifolds; Shape; Grassmann; MKL; Riemannian manifolds; kernel methods; kernels on manifolds; shape analysis;
Conference_Titel :
Computer Vision and Pattern Recognition (CVPR), 2014 IEEE Conference on
Conference_Location :
Columbus, OH
DOI :
10.1109/CVPR.2014.480
