Title :
Optimal no-intersection multi-label binary localization for time series using totally unimodular linear programming
Author :
Cabrai, Ricardo ; Costeira, Joao P. ; Bernardino, Alexandre ; De la Torre, Fernando
Author_Institution :
ISR, Inst. Super. Tecnico, Lisbon, Portugal
Abstract :
We propose a new model for simultaneously localizing different classes in the same media, casting it as an integer optimization problem. Our model subsumes into a single formulation previous single and multi-class localization methods, as well as allows us to exploit optimal relaxations to the linear domain. We apply our model to the problem of multi-label multiple instance learning for tagging video collections. Given weakly labeled training samples, where tags for actions in video and objects in images are known but not their locations, our aim is to train classifiers for both detection and localization of said classes on new data. Experimental results demonstrate our approach obtains similar performances when compared to fully supervised methods.
Keywords :
computer vision; image classification; integer programming; learning (artificial intelligence); linear programming; object recognition; time series; video signal processing; action recognition; classifier training; computer vision; integer optimization problem; multilabel multiple instance learning problem; object recognition; optimal no-intersection multilabel binary localization; time series; totally unimodular linear programming; video collection tagging; Computer vision; Conferences; Niobium; Pattern recognition; Support vector machines; Three-dimensional displays; Time series analysis; computer vision; optimization; permutation matrices; time series; totally unimodular;
Conference_Titel :
Image Processing (ICIP), 2014 IEEE International Conference on
Conference_Location :
Paris
DOI :
10.1109/ICIP.2014.7025632
