Stream-suitable optimization algorithms for some soft-margin support vector machine variants

被引:0
|
作者
Hien D. Nguyen
Andrew T. Jones
Geoffrey J. McLachlan
机构
[1] La Trobe University,Department of Mathematics and Statistics
[2] University of Queensland,School of Mathematics and Physics
来源
Japanese Journal of Statistics and Data Science | 2018年 / 1卷 / 1期
关键词
Big data; MNIST; Stochastic majorization–minimization algorithm; Streamed data; Support vector machines;
D O I
10.1007/s42081-018-0001-y
中图分类号
学科分类号
摘要
Soft-margin support vector machines (SVMs) are an important class of classification models that are well known to be highly accurate in a variety of settings and over many applications. The training of SVMs usually requires that the data be available all at once, in batch. The Stochastic majorization–minimization (SMM) algorithm framework allows for the training of SVMs on streamed data instead. We utilize the SMM framework to construct algorithms for training hinge loss, squared-hinge loss, and logistic loss SVMs. We prove that our three SMM algorithms are each convergent and demonstrate that the algorithms are comparable to some state-of-the-art SVM-training methods. An application to the famous MNIST data set is used to demonstrate the potential of our algorithms.
引用
收藏
页码:81 / 108
页数:27
相关论文
共 50 条
  • [1] Stream-suitable optimization algorithms for some soft-margin support vector machine variants
    Nguyen, Hien D.
    Jones, Andrew T.
    McLachlan, Geoffrey J.
    JAPANESE JOURNAL OF STATISTICS AND DATA SCIENCE, 2018, 1 (01) : 81 - 108
  • [2] Dimensionality Reduction by Soft-Margin Support Vector Machine
    Dong, Ruipeng
    Meng, Hua
    Long, Zhiguo
    Zhao, Hailiang
    2017 IEEE INTERNATIONAL CONFERENCE ON AGENTS (ICA), 2017, : 154 - 156
  • [3] The soft-margin Support Vector Machine with ordered weighted average
    Marin, Alfredo
    Martinez-Merino, Luisa I.
    Puerto, Justo
    Rodriguez-Chia, Antonio M.
    KNOWLEDGE-BASED SYSTEMS, 2022, 237
  • [4] Support Vector Machine for Data with Tolerance based on Hard-Margin and Soft-Margin
    Yukihiro, Hamasuna
    Yasunori, Endo
    Sadaaki, Miyamoto
    2008 IEEE INTERNATIONAL CONFERENCE ON FUZZY SYSTEMS, VOLS 1-5, 2008, : 750 - +
  • [5] Interval Regression Analysis with Soft-Margin Reduced Support Vector Machine
    Huang, Chia-Hui
    Kao, Han-Ying
    NEXT-GENERATION APPLIED INTELLIGENCE, PROCEEDINGS, 2009, 5579 : 826 - +
  • [6] Detection of crack eggs by image processing and soft-margin support vector machine
    Wu, Lanlan
    Wang, Qiaohua
    Jie, Dengfei
    Wang, Shucai
    Zhu, Zhihui
    Xiong, Lirong
    JOURNAL OF COMPUTATIONAL METHODS IN SCIENCES AND ENGINEERING, 2018, 18 (01) : 21 - 31
  • [7] Support Vector Machine Classifier via L0/1 Soft-Margin Loss
    Wang, Huajun
    Shao, Yuanhai
    Zhou, Shenglong
    Zhang, Ce
    Xiu, Naihua
    IEEE TRANSACTIONS ON PATTERN ANALYSIS AND MACHINE INTELLIGENCE, 2022, 44 (10) : 7253 - 7265
  • [8] Polarized skylight compass based on a soft-margin support vector machine working in cloudy conditions
    Liang, Huaju
    Bai, Hongyang
    Liu, Ning
    Sui, Xiubao
    APPLIED OPTICS, 2020, 59 (05) : 1271 - 1279
  • [9] Multiobjective Multiclass Soft-Margin Support Vector Machine Maximizing Pair-Wise Interclass Margins
    Tatsumi, Keiji
    Kawachi, Ryo
    Hayashida, Kenji
    Tanino, Tetsuzo
    ADVANCES IN NEURO-INFORMATION PROCESSING, PT I, 2009, 5506 : 970 - 977
  • [10] Dynamic artificial bee colony algorithm for multi-parameters optimization of support vector machine-based soft-margin classifier
    Yiming Yan
    Ye Zhang
    Fengjiao Gao
    EURASIP Journal on Advances in Signal Processing, 2012
12345