%0 Journal Article %1 Tsirlis_2018 %A Tsirlis, Konstantinos %A Lagani, Vincenzo %A Triantafillou, Sofia %A Tsamardinos, Ioannis %D 2018 %I Elsevier BV %J International Journal of Approximate Reasoning %K mxmcausalpath %P 74-85 %R 10.1016/j.ijar.2018.08.002 %T On scoring Maximal Ancestral Graphs with the Max–Min Hill Climbing algorithm %U https://doi.org/10.1016%2Fj.ijar.2018.08.002 %V 102 %X We consider the problem of causal structure learning in presence of latent confounders. We propose a hybrid method, MAG Max–Min Hill-Climbing (M3HC) that takes as input a data set of continuous variables, assumed to follow a multivariate Gaussian distribution, and outputs the best fitting maximal ancestral graph. M3HC builds upon a previously proposed method, namely GSMAG, by introducing a constraint-based first phase that greatly reduces the space of structures to investigate. On a large scale experimentation we show that the proposed algorithm greatly improves on GSMAG in all comparisons, and over a set of known networks from the literature it compares positively against FCI and cFCI as well as competitively against GFCI, three well known constraint-based approaches for causal-network reconstruction in presence of latent confounders.

@article{Tsirlis_2018, abstract = {We consider the problem of causal structure learning in presence of latent confounders. We propose a hybrid method, MAG Max–Min Hill-Climbing (M3HC) that takes as input a data set of continuous variables, assumed to follow a multivariate Gaussian distribution, and outputs the best fitting maximal ancestral graph. M3HC builds upon a previously proposed method, namely GSMAG, by introducing a constraint-based first phase that greatly reduces the space of structures to investigate. On a large scale experimentation we show that the proposed algorithm greatly improves on GSMAG in all comparisons, and over a set of known networks from the literature it compares positively against FCI and cFCI as well as competitively against GFCI, three well known constraint-based approaches for causal-network reconstruction in presence of latent confounders.}, added-at = {2019-02-01T13:46:22.000+0100}, author = {Tsirlis, Konstantinos and Lagani, Vincenzo and Triantafillou, Sofia and Tsamardinos, Ioannis}, biburl = {https://www.bibsonomy.org/bibtex/2215e0151afb6ceec0a37601e3028e865/mensxmachina}, doi = {10.1016/j.ijar.2018.08.002}, interhash = {7f00d0fcad8c52b8cce71b771e7cb3e5}, intrahash = {215e0151afb6ceec0a37601e3028e865}, journal = {International Journal of Approximate Reasoning}, keywords = {mxmcausalpath}, month = {November}, pages = {74-85}, publisher = {Elsevier {BV}}, timestamp = {2021-03-10T09:26:09.000+0100}, title = {On scoring Maximal Ancestral Graphs with the Max{\textendash}Min Hill Climbing algorithm}, url = {https://doi.org/10.1016%2Fj.ijar.2018.08.002}, volume = 102, year = 2018 }