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引用次数: 0
摘要
本文研究了无向图(UGs)表示由给定随机向量概率分布衍生出的一组条件独立性(CI)声明的能力。虽然已经确定某些公理可以支配这组图,为无向图捕捉特定的 CI 语句提供了充分条件,但我们的重点是协方差图和浓度图。这些仍然是唯一已知的能够描述 CI 语句的 UG 系列。我们探讨了通过相应的协方差图和浓度图完整表示 CI 语句的问题。我们定义了两个参数,分别来自协方差图和浓度图,以确定图所能表示的条件子集的心率限制。我们在这些参数和每个图中分离器的卡片数之间建立了一种关系,并提供了一种直接的计算方法来评估这些参数。总之,我们改进了上述程序,并引入了标准,无需额外计算即可确定图形是否能完全代表给定的 CI 语句集。我们证明,无论是浓度图还是协方差图,都能形成一个循环,如果结合起来考虑,它们就能代表整个关系。在特定情况下,这些标准还能让我们从浓度图推导出协方差图,反之亦然。
Describing Conditional Independence Statements Using Undirected Graphs
This paper investigates the capability of undirected graphs (UGs) to represent a set of Conditional Independence (CI) statements derived from a given probability distribution of a random vector. While it is established that certain axioms can govern this set, providing sufficient conditions for UGs to capture specific CI statements, our focus is on covariance and concentration graphs. These remain the only known families of UGs capable of describing CI statements. We explore the issue of complete representation of CI statements through their corresponding covariance and concentration graphs. Two parameters are defined, one each from the covariance and concentration graphs, to determine the limitations concerning the cardinality of the conditioning subset that the graph can represent. We establish a relationship between these parameters and the cardinality of the separators in each graph, providing a straightforward computational method to evaluate them. In conclusion, we enhance the aforementioned procedure and introduce criteria to ascertain, without additional computations, whether the graphs can fully represent a given set of CI statements. We demonstrate that either the concentration or the covariance graph forms a cycle, and when considered in conjunction, they can represent the entire relation. These criteria also enable us, in specific cases, to deduce the covariance graph from the concentration graph and vice versa.
期刊介绍:
Axiomatic theories in physics and in mathematics (for example, axiomatic theory of thermodynamics, and also either the axiomatic classical set theory or the axiomatic fuzzy set theory) Axiomatization, axiomatic methods, theorems, mathematical proofs Algebraic structures, field theory, group theory, topology, vector spaces Mathematical analysis Mathematical physics Mathematical logic, and non-classical logics, such as fuzzy logic, modal logic, non-monotonic logic. etc. Classical and fuzzy set theories Number theory Systems theory Classical measures, fuzzy measures, representation theory, and probability theory Graph theory Information theory Entropy Symmetry Differential equations and dynamical systems Relativity and quantum theories Mathematical chemistry Automata theory Mathematical problems of artificial intelligence Complex networks from a mathematical viewpoint Reasoning under uncertainty Interdisciplinary applications of mathematical theory.