Title :
pLSA for Sparse Arrays With Tsallis Pseudo-Additive Divergence: Noise Robustness and Algorithm
Author :
Hazan, Tamir ; Hardoon, Roee ; Shashua, Amnon
Author_Institution :
Hebrew Univ. of Jerusalem, Jerusalem
Abstract :
We introduce the Tsallis divergence error measure in the context of pLSA matrix and tensor decompositions showing much improved performance in the presence of noise. The focus of our approach is on one hand to provide an optimization framework which extends (in the sense of a one parameter family) the maximum likelihood framework and on the other hand is theoretically guaranteed to provide robustness under clutter, noise and outliers in the measurement matrix under certain conditions. Specifically, the conditions under which our approach excels is when the measurement array (co-occurrences) is sparse - which happens in the application domain of "bag of visual words".
Keywords :
array signal processing; matrix algebra; maximum likelihood estimation; tensors; Tsallis pseudo-additive divergence; maximum likelihood framework; pLSA matrix; sparse arrays; tensor decompositions; Computer science; Energy measurement; Entropy; Matrix decomposition; Maximum likelihood estimation; Noise measurement; Noise robustness; Q measurement; Sparse matrices; Tensile stress;
Conference_Titel :
Computer Vision, 2007. ICCV 2007. IEEE 11th International Conference on
Conference_Location :
Rio de Janeiro
Print_ISBN :
978-1-4244-1630-1
Electronic_ISBN :
1550-5499
DOI :
10.1109/ICCV.2007.4409048
