We study the NP-hard problem of finding a directed acyclic graph (DAG) on a given set of nodes so as to maximize a given scoring function. The problem models the task of inferring a probabilistic network from data, which has been studied extensively in the fields of artificial intelligence and machine learning. Several variants of the problem, where the output DAG is constrained in several ways, are NP-hard as well, for example when the DAG is required to have bounded in-degree, or when it is required to be a polytree. Polynomial-time algorithms are known only for rare special cases, perhaps most notably for branchings, that is, polytrees in which the in-degree of every node is at most one. In this paper, we generalize this polynomial-time ...
Influence diagrams are intuitive and concise representations of structured deci-sion problems. When ...
While polynomial-time approximation algorithms remain a dominant notion in tackling computationally...
This paper presents algorithms for five NP-hard problems: the vertex set cover of an undirected grap...
The problem of structure learning in Bayesian networks asks for a directed acyclic graph (DAG) that ...
International audienceEdmonds (1973) characterized the condition for the existence of a packing of s...
Inferences in directed acyclic graphs associated with probability intervals and sets of probabilitie...
Inferences in directed acyclic graphs associated with probability intervals and sets of probabil-iti...
Abstract. We study the following fundamental realization problem of di-rected acyclic graphs (dags)....
International audienceWe present a new algorithm for the problem of determining the intersection of ...
We present an algorithm for finding a chordal Markov network that maximizes any given decomposable s...
AbstractTree-width is a well-known metric on undirected graphs that measures how tree-like a graph i...
A polymatroid is a polytope which is closely related to computational efficiency in polyhedral optim...
This paper strengthens the NP-hardness result for the (partial) maximum a posteriori (MAP) problem i...
AbstractMatroid theory gives us powerful techniques for understanding combinatorial optimization pro...
This paper strengthens the NP-hardness result for the (partial) maximum a posteriori (MAP) prob-lem ...
Influence diagrams are intuitive and concise representations of structured deci-sion problems. When ...
While polynomial-time approximation algorithms remain a dominant notion in tackling computationally...
This paper presents algorithms for five NP-hard problems: the vertex set cover of an undirected grap...
The problem of structure learning in Bayesian networks asks for a directed acyclic graph (DAG) that ...
International audienceEdmonds (1973) characterized the condition for the existence of a packing of s...
Inferences in directed acyclic graphs associated with probability intervals and sets of probabilitie...
Inferences in directed acyclic graphs associated with probability intervals and sets of probabil-iti...
Abstract. We study the following fundamental realization problem of di-rected acyclic graphs (dags)....
International audienceWe present a new algorithm for the problem of determining the intersection of ...
We present an algorithm for finding a chordal Markov network that maximizes any given decomposable s...
AbstractTree-width is a well-known metric on undirected graphs that measures how tree-like a graph i...
A polymatroid is a polytope which is closely related to computational efficiency in polyhedral optim...
This paper strengthens the NP-hardness result for the (partial) maximum a posteriori (MAP) problem i...
AbstractMatroid theory gives us powerful techniques for understanding combinatorial optimization pro...
This paper strengthens the NP-hardness result for the (partial) maximum a posteriori (MAP) prob-lem ...
Influence diagrams are intuitive and concise representations of structured deci-sion problems. When ...
While polynomial-time approximation algorithms remain a dominant notion in tackling computationally...
This paper presents algorithms for five NP-hard problems: the vertex set cover of an undirected grap...