Approximate credal network updating by linear programming with applications to decision making

Alessandro Antonucci; Cassio P. de Campos; David Huber; Marco Zaffalon

doi:10.1016/j.ijar.2014.10.003

Approximate credal network updating by linear programming with applications to decision making

Alessandro Antonucci
, Cassio P. de Campos
, David Huber
, Marco Zaffalon

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

30 Citaten (Scopus)

1 Downloads (Pure)

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Credal nets are probabilistic graphical models which extend Bayesian nets to cope with sets of distributions. An algorithm for approximate credal network updating is presented. The problem in its general formulation is a multilinear optimization task, which can be linearized by an appropriate rule for fixing all the local models apart from those of a single variable. This simple idea can be iterated and quickly leads to accurate inferences. A transformation is also derived to reduce decision making in credal networks based on the maximality criterion to updating. The decision task is proved to have the same complexity of standard inference, being NP^PP-complete for general credal nets and NP-complete for polytrees. Similar results are derived for the E-admissibility criterion. Numerical experiments confirm a good performance of the method.

Originele taal-2	Engels
Pagina's (van-tot)	25-38
Aantal pagina's	14
Tijdschrift	International Journal of Approximate Reasoning
Volume	58
DOI's	https://doi.org/10.1016/j.ijar.2014.10.003
Status	Gepubliceerd - mrt. 2015
Extern gepubliceerd	Ja

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This work was partly supported by the Swiss NSF grants Nos. 200021_146606/1 and 200020_137680/1 . The work of C.P. de Campos has been mostly performed while he was with IDSIA. Appendix A

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abstract = "Credal nets are probabilistic graphical models which extend Bayesian nets to cope with sets of distributions. An algorithm for approximate credal network updating is presented. The problem in its general formulation is a multilinear optimization task, which can be linearized by an appropriate rule for fixing all the local models apart from those of a single variable. This simple idea can be iterated and quickly leads to accurate inferences. A transformation is also derived to reduce decision making in credal networks based on the maximality criterion to updating. The decision task is proved to have the same complexity of standard inference, being NPPP-complete for general credal nets and NP-complete for polytrees. Similar results are derived for the E-admissibility criterion. Numerical experiments confirm a good performance of the method.",

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author = "Alessandro Antonucci and \{de Campos\}, \{Cassio P.\} and David Huber and Marco Zaffalon",

year = "2015",

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AU - Antonucci, Alessandro

AU - de Campos, Cassio P.

AU - Huber, David

AU - Zaffalon, Marco

PY - 2015/3

Y1 - 2015/3

N2 - Credal nets are probabilistic graphical models which extend Bayesian nets to cope with sets of distributions. An algorithm for approximate credal network updating is presented. The problem in its general formulation is a multilinear optimization task, which can be linearized by an appropriate rule for fixing all the local models apart from those of a single variable. This simple idea can be iterated and quickly leads to accurate inferences. A transformation is also derived to reduce decision making in credal networks based on the maximality criterion to updating. The decision task is proved to have the same complexity of standard inference, being NPPP-complete for general credal nets and NP-complete for polytrees. Similar results are derived for the E-admissibility criterion. Numerical experiments confirm a good performance of the method.

AB - Credal nets are probabilistic graphical models which extend Bayesian nets to cope with sets of distributions. An algorithm for approximate credal network updating is presented. The problem in its general formulation is a multilinear optimization task, which can be linearized by an appropriate rule for fixing all the local models apart from those of a single variable. This simple idea can be iterated and quickly leads to accurate inferences. A transformation is also derived to reduce decision making in credal networks based on the maximality criterion to updating. The decision task is proved to have the same complexity of standard inference, being NPPP-complete for general credal nets and NP-complete for polytrees. Similar results are derived for the E-admissibility criterion. Numerical experiments confirm a good performance of the method.

KW - Bayesian networks

KW - Credal networks

KW - Decision making

KW - E-admissibility

KW - Linear programming

KW - Maximality

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U2 - 10.1016/j.ijar.2014.10.003

DO - 10.1016/j.ijar.2014.10.003

M3 - Article

SN - 0888-613X

VL - 58

SP - 25

EP - 38

JO - International Journal of Approximate Reasoning

JF - International Journal of Approximate Reasoning

ER -

Approximate credal network updating by linear programming with applications to decision making

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