MPEKDyL: Efficient multi-partial empirical kernel dynamic learning
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摘要
Multiple Empirical Kernel Learning (MEKL) is convenient for basic classifiers implemented into feature spaces. However, the huge computational complexity O(MN3) for multiple empirical kernel mapping strongly restricts its application, where N and M are the number of the training samples and the feature spaces, respectively. Moreover, the generated high-dimensional feature spaces result in huge memory cost. To address these problems, we introduce a method called Multi-Partial Empirical Kernel Mapping (MPEKM) that is able to reduce the mapping computational complexity and generate the lower-dimensional feature spaces. The computational complexity OMNl3 could be achieved by this approach, where Nl(≪N) is the size of the partial subset. However, since the feature spaces are constructed by multiple non-overlapping training subsets, they might not represent the discriminant information appropriately. To guarantee the classification performance, we further introduce a Dynamic Learning method (DyL) to dynamically select the samples having more contribution to the decision boundary for training. By combining MPEKM and DyL, we propose an efficient Multi-Partial Empirical Kernel Dynamic Learning method (MPEKDyL) which results in higher classification performance and lower computational complexity than the conventional MEKL. Moreover, the generated feature spaces have much lower dimensions. The advantages of the proposed MPEKDyL are: (i) reducing the multiple empirical kernel mapping computational complexity from O(MN3) to OMNl3, (ii) generating lower-dimensional feature spaces, and (iii) dynamically selecting the samples for training. The experimental results validate its effectiveness and efficiency.
论文关键词:Multiple kernel learning,Multi-partial empirical kernel mapping,Dynamic learning,Modified Ho-Kashyap algorithm,Pattern recognition
论文评审过程:Received 24 June 2014, Revised 21 December 2014, Accepted 25 December 2014, Available online 6 January 2015.
论文官网地址:https://doi.org/10.1016/j.knosys.2014.12.024