Testing edges by truncations
Testing edges by truncations
We consider the problem of testing whether two variables should be adjacent (either due to a direct effect between them, or due to a hidden common cause) given an observational distribution, and a set of causal assumptions encoded as a causal diagram. In other words, given a set of edges in the diagram known to be true, we are interested in testing whether another edge ought to be in the diagram. In fully observable faithful models this problem can be easily solved with conditional independence tests. Latent variables make the problem significantly harder since they can imply certain non-adjacent variable pairs, namely those connected by so called inducing paths, are not independent conditioned on any set of variables. We characterize which variable pairs can be determined to be non-adjacent by a class of constraints due to dormant independence, that is conditional independence in identifiable interventional distributions. Furthermore, we show that particular operations on joint distributions, which we call truncations are sufficient for exhibiting these non-adjacencies. This suggests a causal discovery procedure taking advantage of these constraints in the latent variable case can restrict itself to truncations.
978-1-57735-426-0
1957-1963
Shpitser, Ilya
4d295b9b-39e8-417f-b38d-fbb5d7df6992
Richardson, T.S.
95cabb56-92db-4536-9ff1-a13d0cd6370e
Robins, J.M.
551520b7-7a69-4fc9-8192-9ab4fcb22342
2009
Shpitser, Ilya
4d295b9b-39e8-417f-b38d-fbb5d7df6992
Richardson, T.S.
95cabb56-92db-4536-9ff1-a13d0cd6370e
Robins, J.M.
551520b7-7a69-4fc9-8192-9ab4fcb22342
Shpitser, Ilya, Richardson, T.S. and Robins, J.M.
(2009)
Testing edges by truncations.
In Proceedings of the Twenty First International Joint Conference on Artificial Intelligence (IJCAI-09).
AAAI Press.
.
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Conference or Workshop Item
(Paper)
Abstract
We consider the problem of testing whether two variables should be adjacent (either due to a direct effect between them, or due to a hidden common cause) given an observational distribution, and a set of causal assumptions encoded as a causal diagram. In other words, given a set of edges in the diagram known to be true, we are interested in testing whether another edge ought to be in the diagram. In fully observable faithful models this problem can be easily solved with conditional independence tests. Latent variables make the problem significantly harder since they can imply certain non-adjacent variable pairs, namely those connected by so called inducing paths, are not independent conditioned on any set of variables. We characterize which variable pairs can be determined to be non-adjacent by a class of constraints due to dormant independence, that is conditional independence in identifiable interventional distributions. Furthermore, we show that particular operations on joint distributions, which we call truncations are sufficient for exhibiting these non-adjacencies. This suggests a causal discovery procedure taking advantage of these constraints in the latent variable case can restrict itself to truncations.
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Published date: 2009
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Local EPrints ID: 350575
URI: http://eprints.soton.ac.uk/id/eprint/350575
ISBN: 978-1-57735-426-0
PURE UUID: 64c833a8-4849-4920-a00f-3a0fdb0b2d92
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Date deposited: 04 Apr 2013 13:51
Last modified: 14 Mar 2024 13:27
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Author:
Ilya Shpitser
Author:
T.S. Richardson
Author:
J.M. Robins
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