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Learning When Concepts Abound

Omid Madani, Michael Connor, Wiley Greiner; 10(89):2571−2613, 2009.

Abstract

Many learning tasks, such as large-scale text categorization and word prediction, can benefit from efficient training and classification when the number of classes, in addition to instances and features, is large, that is, in the thousands and beyond. We investigate the learning of sparse class indices to address this challenge. An index is a mapping from features to classes. We compare the index-learning methods against other techniques, including one-versus-rest and top-down classification using perceptrons and support vector machines. We find that index learning is highly advantageous for space and time efficiency, at both training and classification times. Moreover, this approach yields similar and at times better accuracies. On problems with hundreds of thousands of instances and thousands of classes, the index is learned in minutes, while other methods can take hours or days. As we explain, the design of the learning update enables conveniently constraining each feature to connect to a small subset of the classes in the index. This constraint is crucial for scalability. Given an instance with l active (positive-valued) features, each feature on average connecting to d classes in the index (in the order of 10s in our experiments), update and classification take O(dl log(dl)).

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