Model Selection Through Model Sorting

Mohammad Ali Hajiani, Babak Seyfe
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Abstract

We propose a novel approach to select the best model of the data. Based on the exclusive properties of the nested models, we find the most parsimonious model containing the risk minimizer predictor. We prove the existence of probable approximately correct (PAC) bounds on the difference of the minimum empirical risk of two successive nested models, called successive empirical excess risk (SEER). Based on these bounds, we propose a model order selection method called nested empirical risk (NER). By the sorted NER (S-NER) method to sort the models intelligently, the minimum risk decreases. We construct a test that predicts whether expanding the model decreases the minimum risk or not. With a high probability, the NER and S-NER choose the true model order and the most parsimonious model containing the risk minimizer predictor, respectively. We use S-NER model selection in the linear regression and show that, the S-NER method without any prior information can outperform the accuracy of feature sorting algorithms like orthogonal matching pursuit (OMP) that aided with prior knowledge of the true model order. Also, in the UCR data set, the NER method reduces the complexity of the classification of UCR datasets dramatically, with a negligible loss of accuracy.
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通过模型排序选择模型
我们提出了一种选择最佳数据模型的新方法。基于嵌套模型的排他性,我们找到了包含风险最小化预测因子的最简洁模型。我们证明了两个连续嵌套模型的最小经验风险之差存在可能近似正确(PAC)的边界,称为连续经验超额风险(SEER)。基于这些界限,我们提出了一种称为嵌套经验风险(NER)的模型顺序选择方法。通过排序 NER(S-NER)方法对模型进行智能排序,可以降低最小风险。我们在线性回归中使用了 S-NER 模型选择方法,结果表明,在没有任何先验信息的情况下,S-NER 方法的准确性优于正交匹配追寻(OMP)等先验了解真实模型顺序的特征排序算法。此外,在 UCR 数据集中,NER 方法大大降低了 UCR 数据集分类的复杂性,其准确性损失可以忽略不计。
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