• DocumentCode
    2131162
  • Title

    Multi-parametric solution-path algorithm for instance-weighted support vector machines

  • Author

    Karasuyama, Masayuki ; Harada, Naoyuki ; Sugiyama, Masashi ; Takeuchi, Ichiro

  • Author_Institution
    Dept. of Comput. Sci., Tokyo Inst. of Technol., Tokyo, Japan
  • fYear
    2011
  • fDate
    18-21 Sept. 2011
  • Firstpage
    1
  • Lastpage
    6
  • Abstract
    An instance-weighted variant of the support vector machine (SVM) has attracted considerable attention recently since they are useful in various machine learning tasks such as non-stationary data analysis, heteroscedastic data modeling, transfer learning, learning to rank, and transduction. An important challenge in these scenarios is to overcome the computational bottleneck-instance weights often change dynamically or adaptively, and thus the weighted SVM solutions must be repeatedly computed. In this paper, we develop an algorithm that can efficiently and exactly update the weighted SVM solutions for arbitrary change of instance weights. Technically, this contribution can be regarded as an extension of the conventional solution-path algorithm for a single regularization parameter to multiple instance-weight parameters. However, this extension gives rise to a significant problem that breakpoints (at which the solution path turns) have to be identified in high-dimensional space. To facilitate this, we introduce a parametric representation of instance weights which allows us to find the breakpoints in high-dimensional space easily. Despite its simplicity, our parametrization covers various important machine learning tasks and it widens the applicability of the solution-path algorithm. Through extensive experiments on various practical applications, we demonstrate the usefulness of the proposed algorithm.
  • Keywords
    data analysis; learning (artificial intelligence); support vector machines; computational bottleneck; heteroscedastic data modeling; instance-weighted support vector machines; learning to rank; machine learning tasks; multiparametric solution-path algorithm; nonstationary data analysis; transduction; transfer learning; Computational modeling; Indexes; Machine learning; Machine learning algorithms; Support vector machines; Training; Vectors;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Machine Learning for Signal Processing (MLSP), 2011 IEEE International Workshop on
  • Conference_Location
    Santander
  • ISSN
    1551-2541
  • Print_ISBN
    978-1-4577-1621-8
  • Electronic_ISBN
    1551-2541
  • Type

    conf

  • DOI
    10.1109/MLSP.2011.6064551
  • Filename
    6064551