IEEE Access (Jan 2017)

Incremental and Decremental Extreme Learning Machine Based on Generalized Inverse

  • Bo Jin,
  • Zhongliang Jing,
  • Haitao Zhao

DOI
https://doi.org/10.1109/ACCESS.2017.2758645
Journal volume & issue
Vol. 5
pp. 20852 – 20865

Abstract

Read online

In online sequential applications, a machine learning model needs to have a self-updating ability to handle the situation, which the training set is changing. Conventional incremental extreme learning machine (ELM) and online sequential ELM are usually achieved in two approaches: directly updating the output weight and recursively computing the left pseudo inverse of the hidden layer output matrix. In this paper, we develop a novel solution for incremental and decremental ELM (DELM), via recursively updating and downdating the generalized inverse of the hidden layer output matrix. By preserving the global optimality and best generalization performance, our approach implements node incremental ELM (N-IELM) and sample incremental ELM (S-IELM) in a universal form, and overcomes the problem of selfstarting and numerical instability in the conventional online sequential ELM. We also propose sample DELM (S-DELM), which is the first decremental version of ELM. The experiments on regression and classification problems with real-world data sets demonstrate the feasibility and effectiveness of the proposed algorithms with encouraging performances.

Keywords