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HHCART: An oblique decision tree

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  • Wickramarachchi, D.C.
  • Robertson, B.L.
  • Reale, M.
  • Price, C.J.
  • Brown, J.

Abstract

Decision trees are a popular technique in statistical data classification. They recursively partition the feature space into disjoint sub-regions until each sub-region becomes homogeneous with respect to a particular class. The basic Classification and Regression Tree (CART) algorithm partitions the feature space using axis parallel splits. When the true decision boundaries are not aligned with the feature axes, this approach can produce a complicated boundary structure. Oblique decision trees use oblique decision boundaries to potentially simplify the boundary structure. The major limitation of this approach is that the tree induction algorithm is computationally expensive. Hence, as an alternative, a new decision tree algorithm called HHCART is presented. The method uses a series of Householder matrices to reflect the training data at each non-terminal node during tree construction. Each reflection is based on the directions of the eigenvectors from each class’ covariance matrix. Considering of axis parallel splits in the reflected training data provides an efficient way of finding oblique splits in the unreflected training data. Experimental results show that the accuracy and size of HHCART trees are comparable with some benchmark methods. The appealing feature of HHCART is that it can handle both qualitative and quantitative features in the same oblique split.

Suggested Citation

  • Wickramarachchi, D.C. & Robertson, B.L. & Reale, M. & Price, C.J. & Brown, J., 2016. "HHCART: An oblique decision tree," Computational Statistics & Data Analysis, Elsevier, vol. 96(C), pages 12-23.
    • Handle: RePEc:eee:csdana:v:96:y:2016:i:c:p:12-23
    DOI: 10.1016/j.csda.2015.11.006
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    References listed on IDEAS

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    1. B. Robertson & C. Price & M. Reale, 2013. "CARTopt: a random search method for nonsmooth unconstrained optimization," Computational Optimization and Applications, Springer, vol. 56(2), pages 291-315, October.
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    Cited by:

    1. A. Poterie & J.-F. Dupuy & V. Monbet & L. Rouvière, 2019. "Classification tree algorithm for grouped variables," Computational Statistics, Springer, vol. 34(4), pages 1613-1648, December.
    2. Emilio Carrizosa & Cristina Molero-Río & Dolores Romero Morales, 2021. "Mathematical optimization in classification and regression trees," TOP: An Official Journal of the Spanish Society of Statistics and Operations Research, Springer;Sociedad de Estadística e Investigación Operativa, vol. 29(1), pages 5-33, April.

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