Constructs different versions of the essential graph from a given DAG.
External function that computes essential graph of a dag Minimal PDAG:
The only directed edges are those who participate in v-structure Completed PDAG:
very directed edge corresponds to a compelled edge, and every undirected
edge corresponds to a reversible edge
a matrix or a formula statement (see ‘Details’ for format)
defining the network structure, a directed acyclic graph (DAG).
node.names
a vector of names if the DAG is given via formula, see ‘Details’.
PDAG
a character value that can be: minimal or complete, see ‘Details’.
Details
This function returns an essential graph from a DAG,
aka acyclic partially directed graph (PDAG).
This can be useful if the learning procedure is defined up to a Markov class
of equivalence.
A minimal PDAG is defined as only directed edges are those who participate
in v-structure. Whereas the completed PDAG: every directed edge corresponds
to a compelled edge, and every undirected edge corresponds to a reversible edge.
The dag can be provided using a formula statement (similar to glm).
A typical formula is ~ node1|parent1:parent2 + node2:node3|parent3.
The formula statement have to start with ~.
In this example, node1 has two parents (parent1 and parent2).
node2 and node3 have the same parent3.
The parents names have to exactly match those given in node.names.
: is the separator between either children or parents,
| separates children (left side) and parents (right side),
+ separates terms, . replaces all the variables in node.names.
References
West, D. B. (2001). Introduction to Graph Theory. Vol. 2. Upper Saddle River: Prentice Hall.
Chickering, D. M. (2013) A Transformational Characterization of Equivalent Bayesian Network Structures, arXiv:1302.4938.