离散值随机变量间混合系数的计算

M. Ahsen, M. Vidyasagar
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引用次数: 2

摘要

两个随机变量之间的混合系数可以衡量它们之间的相关性。对于随机过程,混合是表示过程渐近独立的另一种方式。为了测量混合情况,介绍了不同类型的混合系数。文献中常用的混合系数有三种,即α-、β-和φ-混合系数。虽然很容易推导出β-混合系数的显式封闭公式,但对于a-和φ-混合系数则不存在这样的公式。我们研究了两个随机变量在有限集合中取值的情况。在这种设置下,我们证明了混合系数的计算是np困难的。此外,利用半定松弛,我们得到了混合系数的下界和上界。我们还导出了两个随机变量间的混合系数的封闭表达式。这些结果概括了作者先前的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On the computation of mixing coefficients between discrete-valued random variables
Mixing coefficients between two random variables act as a measure of their dependence. For stochastic processes mixing is another way of saying that the process is asymptotically independent. To measure mixing different types of mixing coefficients are introduced. In the literature, three kinds of mixing coefficients are commonly used, namely α-, β- and φ-mixing coefficients. While it is easy to derive an explicit closed-form formula for the β-mixing coefficient, no such formulas exist for the a- and the φ-mixing coefficients. We study the case where the two random variables assume values in a finite set. Under this setup, we show that the computation of alpha-mixing coefficient is NP-hard. Moreover, by using a semi-definite relaxation we obtain lower and upper bounds for the alpha-mixing coefficient. We also derive a closed form expression for the phi-mixing coefficient between two random variables. These results generalize earlier results by the authors.
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