1. Incremental Hyper-Sphere Partitioning for Classification
- Author
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Binge Zheng, Sheng-Uei Guan, Jinghao Song, Tianlin Yu, Tao Yang, and Mengying Cao
- Subjects
business.industry ,Population-based incremental learning ,Pattern recognition ,Hypersphere ,Reduction (complexity) ,ComputingMethodologies_PATTERNRECOGNITION ,Hyperplane ,Encoding (memory) ,Genetic algorithm ,Artificial intelligence ,business ,Linear equation ,Mathematics ,Curse of dimensionality - Abstract
The authors propose an incremental hyperplane partitioning approach to classification. Hyperplanes that are close to the classification boundaries of a given problem are searched using an incremental approach based upon Genetic Algorithm GA. A new method-Incremental Linear Encoding based Genetic Algorithm ILEGA is proposed to tackle the difficulty of classification problems caused by the complex pattern relationship and curse of dimensionality. The authors solve classification problems through a simple and flexible chromosome encoding scheme, where the partitioning rules are encoded by linear equations rather than If-Then rules. Moreover, an incremental approach combined with output portioning and pattern reduction is applied to cope with the curse of dimensionality. The algorithm is tested with six datasets. The experimental results show that ILEGA outperform in both lower-and higher-dimensional problems compared with the original GA.
- Published
- 2014
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