Restricted Set Classification: Who is there?, Pattern Recognition

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  • Ludmila I. Kuncheva
  • Juan J. Rodriguez
    University of Burgos
  • Aaron S. Jackson
    University of Nottingham
We consider a problem where a set X of N objects (instances) coming from c classes have to be classified simultaneously. A restriction is imposed on X in that the maximum possible number of objects from each class is known, hence we dubbed the problem who-is-there? We compare three approaches to this problem: (1) independent classification whereby each object is labelled in the class with the largest posterior probability; (2) a greedy approach which enforces the restriction; and (3) a theoretical approach which, in addition, maximises the likelihood of the label assignment, implemented through the Hungarian
assignment algorithm. Our experimental study consists of two parts. The first part includes a custom-made chess data set where the pieces on the chess board must be recognised together from an image of the board. In the second part, we simulate the restricted set classification scenario using 96 datasets from a recently collated repository (University of Santiago de Compostela, USC). Our results show that the proposed approach (3) outperforms approaches (1) and (2).
Original languageEnglish
Pages (from-to)158-170
JournalPattern Recognition
Volume63
Issue numberC
Early online date30 Sept 2016
DOIs
Publication statusPublished - 1 Mar 2017

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