Prototype optimization for nearest-neighbor classification

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摘要

A novel neuralnet-based method of constructing optimized prototypes for nearest-neighbor classifiers is proposed. Based on an effective classification oriented error function containing class classification and class separation components, the corresponding prototype and feature weight update rules are derived. The proposed method consists of several distinguished properties. First, not only prototypes but also feature weights are constructed during the optimization process. Second, several instead of one prototype not belonging to the genuine class of input sample x are updated when x is classified incorrectly. Third, it intrinsically distinguishes different learning contribution from training samples, which enables a large amount of learning from constructive samples, and limited learning from outliers. Experiments have shown the superiority of this method compared with LVQ2 and other previous works.

论文关键词:Prototype construction,Prototype optimization,Competitive learning,Classification oriented error function,Neural networks

论文评审过程:Received 5 June 2000, Accepted 1 July 2001, Available online 28 February 2002.

论文官网地址:https://doi.org/10.1016/S0031-3203(01)00124-8