集成学习环境下形状识别的实证研究

Weili Ding, Xinming Wang, Han Liu, Bo Hu
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引用次数: 5

摘要

形状识别一直是机器学习的一个流行应用,其中每个形状被定义为一个类,用于训练识别新实例形状的分类器。由于分类器的训练基本上是通过从特征中学习来实现的,因此提取和选择一组能够有效区分一个类和其他类的相关特征是至关重要的。然而,不同的实例可能呈现出高度不同的特性,即使这些实例属于同一个类。上述特征表示的差异也会导致使用不同算法或数据样本训练的分类器之间的高度多样性。本文利用从二维形状数据集中提取的六个特征,研究了多分类器融合对形状识别的影响。特别地,采用流行的单一学习算法,如决策树、支持向量机和K近邻,对使用包装方法选择的特征训练基分类器。此外,采用两种流行的集成学习算法(随机森林和梯度提升树)在相同的特征集上训练决策树集成。实验结果表明,与使用单个(非集成)学习算法相比,上述多分类器融合设置在提高性能方面是有效的。
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An Empirical Study of Shape Recognition in Ensemble Learning Context
Shape recognition has been a popular application of machine learning, where each shape is defined as a class for training classifiers that recognize the shapes of new instances. Since training of classifiers is essentially achieved through learning from features, it is crucial to extract and select a set of relevant features that can effectively distinguish one class from other classes. However, different instances could present features which are highly dissimilar, even if these instances belong to the same class. The above difference in feature representation can also result in high diversity among classifiers trained by using different algorithms or data samples. In this paper, we investigate the impact of multi-classifier fusion on shape recognition by using six features extracted from a 2D shape data set. In particular, popular single learning algorithms, such as Decision Trees, Support Vector Machine and K Nearest Neighbours, are adopted to train base classifiers on features selected by using a wrapper approach. Furthermore, two popular ensemble learning algorithms (Random Forests and Gradient Boosted Trees) are adopted to train decision tree ensembles on the same feature sets. The outputs of the two ensemble classifiers are finally combined with the outputs of all the other base classifiers The experimental results show the effectiveness of the above setting of multi-classifier fusion for advancing the performance in comparison with using each single (non-ensemble) learning algorithm.
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