%Aigaion2 BibTeX export from Knowledge Engineering Publications
%Saturday 17 April 2021 10:08:12 AM

       author = {Park, Sang-Hyeun and F{\"{u}}rnkranz, Johannes},
        title = {Efficient Pairwise Classification and Ranking},
       number = {TUD-KE-2007-03},
         year = {2007},
  institution = {TU Darmstadt, Knowledge Engineering Group},
          url = {http://www.ke.tu-darmstadt.de/publications/reports/tud-ke-2007-03.pdf},
     abstract = {Pairwise classication is a class binarization procedure that converts a multi-class problem into
a series of two-class problems, one problem for each pair of classes. While it can be shown that for training, this procedure is more efficient than the more commonly used one-against-all approach, it still has to evaluate a quadratic number of classifiers when computing the predicted class for a given example. In this paper, we propose a method that allows a faster computation of the predicted class when weighted or unweighted voting are used for combining the predictions of the individual classiers. While its worst-case complexity is still quadratic in the number of classes, we show that even in the case of completely random base classiers, our method still outperforms the conventional pairwise classifier. For the more practical case of well-trained base classiers, its asymptotic computational complexity seems to be almost linear. We also propose a method for approximating the full class ranking, based on the Swiss System, a common scheme for conducting multi-round chess tournaments. Our results indicate that this adaptive scheme offers a better trade-off between approximation quality and number of performed comparisons than alternative,
fixed schemes for ordering the evaluation of the pairwise classifiers.}