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引用次数: 0
摘要
比较和检验两个独立随机样本的同质性是一个基本的统计问题,在各个领域都有很多应用。然而,当数据复杂或高维时,现有的方法可能无法奏效。我们提出了一种新方法,用高斯核对数据的所有一维投影进行最大均值差异(MMD)积分。我们推导出了集成 MMD 的闭式表达式,并证明了它作为分布相似度量的有效性。我们用 U 统计理论估计了综合 MMD,并研究了它在零假设和两种替代假设下的渐近行为。我们证明了我们的方法具有 MMD 的优点,并且在合成数据集和真实数据集上都优于现有方法,尤其是在数据复杂和高维的情况下。
Testing the equality of distributions using integrated maximum mean discrepancy
Comparing and testing for the homogeneity of two independent random samples is a fundamental statistical problem with many applications across various fields. However, existing methods may not be effective when the data is complex or high-dimensional. We propose a new method that integrates the maximum mean discrepancy (MMD) with a Gaussian kernel over all one-dimensional projections of the data. We derive the closed-form expression of the integrated MMD and prove its validity as a distributional similarity metric. We estimate the integrated MMD with the -statistic theory and study its asymptotic behaviors under the null and two kinds of alternative hypotheses. We demonstrate that our method has the benefits of the MMD, and outperforms existing methods on both synthetic and real datasets, especially when the data is complex and high-dimensional.
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