Constructing the shortest ECOC for fast multi-classification
KSEM'11 Proceedings of the 5th international conference on Knowledge Science, Engineering and Management
A genetic inspired optimization for ECOC
SSPR'12/SPR'12 Proceedings of the 2012 Joint IAPR international conference on Structural, Syntactic, and Statistical Pattern Recognition
On the design of an ECOC-Compliant Genetic Algorithm
Pattern Recognition
International Journal of Knowledge-based and Intelligent Engineering Systems
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In this paper, we propose an evolutionary approach to the design of output codes for multiclass pattern recognition problems. This approach has the advantage of taking into account the different aspects that are relevant for a code matrix to achieve a good performance. We define a fitness function made up of five terms that refer to overall classifier accuracy, binary classifiers' accuracy, classifiers' diversity, minimum Hamming distance among codewords, and margin of classification. These five factors have not been considered together in previous works. We perform a study of these five terms to obtain a fitness function with three of them. We test our approach on 27 datasets from the UCI Machine Learning Repository, using three different base learners: C4.5, neural networks, and support vector machines. We show a better performance than most of the current standard methods, namely, randomly generated codes with approximately equal random split, codes designed using a CHC algorithm, and one-vs-all and one-vs-one methods.