This work focuses on efficiently processing and analyzing content related to incorporating expert knowledge to restrict the Markov equivalence class of maximal ancestral graphs (MAGs). The key highlights and insights are:
The authors review several existing characterizations of Markov equivalence for MAGs and reconcile them, proving a result previously conjectured by Ali et al. (2009). They also provide a new algorithm (Algorithm 1) for constructing an essential ancestral graph from a given MAG.
The authors define consistent expert knowledge, sound, and complete edge orientations. They then introduce several new edge orientation rules (R11-R13, R4) needed to incorporate expert knowledge into essential ancestral graphs.
The authors present the addBgKnowledge algorithm (Algorithm 2) which shows how to add expert knowledge to essential ancestral graphs using the entire set of known edge mark orientation rules. They prove certain properties of the restricted Markov equivalence class.
For specific settings, the authors show that Algorithm 2 is complete in obtaining the restricted essential ancestral graph (Theorems 26, 27, 29). Outside of these settings, they provide an algorithm verifyCompleteness (Algorithm 3) that can verify whether a partial mixed graph is a restricted essential ancestral graph.
The authors discuss the runtime of Algorithm 3 through a simulation study, showing that their theoretical results afford Algorithm 3 a faster runtime compared to a brute force approach.
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