Time series prediction evolving Voronoi regions
Applied Intelligence
IPADE: iterative prototype adjustment for nearest neighbor classification
IEEE Transactions on Neural Networks
Cellular automata based nearest neighbour rule condensation
International Journal of Computer Applications in Technology
On the evolutionary optimization of k-NN by label-dependent feature weighting
Pattern Recognition Letters
Safe exploration of state and action spaces in reinforcement learning
Journal of Artificial Intelligence Research
Hi-index | 0.00 |
The distance metric is the corner stone of nearest neighbor (NN)-based methods, and therefore, of nearest prototype (NP) algorithms. That is because they classify depending on the similarity of the data. When the data is characterized by a set of features which may contribute to the classification task in different levels, feature weighting or selection is required, sometimes in a local sense. However, local weighting is typically restricted to NN approaches. In this paper, we introduce local feature weighting (LFW) in NP classification. LFW provides each prototype its own weight vector, opposite to typical global weighting methods found in the NP literature, where all the prototypes share the same one. Providing each prototype its own weight vector has a novel effect in the borders of the Voronoi regions generated: They become nonlinear. We have integrated LFW with a previously developed evolutionary nearest prototype classifier (ENPC). The experiments performed both in artificial and real data sets demonstrate that the resulting algorithm that we call LFW in nearest prototype classification (LFW-NPC) avoids overfitting on training data in domains where the features may have different contribution to the classification task in different areas of the feature space. This generalization capability is also reflected in automatically obtaining an accurate and reduced set of prototypes.