论文信息 - A Novel Extreme Learning Machine Based on Hybrid Kernel Function

A Novel Extreme Learning Machine Based on Hybrid Kernel Function

Extreme learning machine is a new learning algorithm for the single hidden layer feedforward neural networks (SLFNs). ELM has been widely used in various fields and applications to overcome the slow training speed and over-fitting problems of the conventional neural network learning algorithms. ELM algorithm is based on the empirical risk minimization, without considering the structural risk and this may lead to over-fitting problems and at the same time, it is with poor controllability and robustness. For these deficiencies, an optimization method is proposed in this paper, a novel extreme learning machine based on hybrid kernel function (HKELM). The method constructs a hybrid kernel function with better performance by fully combining local kernel function strong learning ability and global kernel function strong generalization ability. Compared with traditional ELM, the results show that this method can effectively improve the ELM classification results, avoid local minimum, with better generalization, robustness, controllability and faster learning rate.

[1] Lv Zhe. Soft Sensing Modeling Based on Extreme Learning Machine for Biochemical Processes , 2007 .

[2] Mohammad Reza Daliri,et al. A Hybrid Automatic System for the Diagnosis of Lung Cancer Based on Genetic Algorithm and Fuzzy Extreme Learning Machines , 2012, Journal of Medical Systems.

[3] Rudolf Wille,et al. Restructuring Lattice Theory: An Approach Based on Hierarchies of Concepts , 2009, ICFCA.

[4] Chee Kheong Siew,et al. Extreme learning machine: Theory and applications , 2006, Neurocomputing.

[5] Enrique Romero,et al. Comparing error minimized extreme learning machines and support vector sequential feed-forward neural networks , 2012, Neural Networks.

[6] Inderjit S. Dhillon,et al. Concept Decompositions for Large Sparse Text Data Using Clustering , 2004, Machine Learning.

[7] Yiqiang Chen,et al. Weighted extreme learning machine for imbalance learning , 2013, Neurocomputing.

[8] Qinghua Zheng,et al. Ordinal extreme learning machine , 2010, Neurocomputing.

[9] Narasimhan Sundararajan,et al. A Fast and Accurate Online Sequential Learning Algorithm for Feedforward Networks , 2006, IEEE Transactions on Neural Networks.

[10] Guang-Bin Huang,et al. Learning capability and storage capacity of two-hidden-layer feedforward networks , 2003, IEEE Trans. Neural Networks.