Title :
Efficient High Order Matching
Author :
Chertok, Michael ; Keller, Yosi
Author_Institution :
Sch. of Eng., Bar-Ilan Univ., Ramat Gan, Israel
Abstract :
We present a computational approach to high-order matching of data sets in Rd. Those are matchings based on data affinity measures that score the matching of more than two pairs of points at a time. High-order affinities are represented by tensors and the matching is then given by a rank-one approximation of the affinity tensor and a corresponding discretization. Our approach is rigorously justified by extending Zass and Shashua´s hypergraph matching to high-order spectral matching. This paves the way for a computationally efficient dual-marginalization spectral matching scheme. We also show that, based on the spectral properties of random matrices, affinity tensors can be randomly sparsified while retaining the matching accuracy. Our contributions are experimentally validated by applying them to synthetic as well as real data sets.
Keywords :
approximation theory; graph theory; image matching; matrix algebra; tensors; affinity tensor; data affinity measures; dual marginalization spectral matching scheme; high order matching; hypergraph matching; random matrix; rank one approximation; High-order assignment; probabilistic matching; spectral relaxation.;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
DOI :
10.1109/TPAMI.2010.51
