Causal Networks: Semantics and Expressiveness

📝 Original Info

• Title: Causal Networks: Semantics and Expressiveness
• ArXiv ID: 1304.2379
• Date: 2013-04-10
• Authors: Researchers from original ArXiv paper

📝 Abstract

Dependency knowledge of the form "x is independent of y once z is known" invariably obeys the four graphoid axioms, examples include probabilistic and database dependencies. Often, such knowledge can be represented efficiently with graphical structures such as undirected graphs and directed acyclic graphs (DAGs). In this paper we show that the graphical criterion called d-separation is a sound rule for reading independencies from any DAG based on a causal input list drawn from a graphoid. The rule may be extended to cover DAGs that represent functional dependencies as well as conditional dependencies.

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Deep Dive into Causal Networks: Semantics and Expressiveness.

Dependency knowledge of the form “x is independent of y once z is known” invariably obeys the four graphoid axioms, examples include probabilistic and database dependencies. Often, such knowledge can be represented efficiently with graphical structures such as undirected graphs and directed acyclic graphs (DAGs). In this paper we show that the graphical criterion called d-separation is a sound rule for reading independencies from any DAG based on a causal input list drawn from a graphoid. The rule may be extended to cover DAGs that represent functional dependencies as well as conditional dependencies.

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