A new causal discovery heuristic

S. D. Prestwich; S. A. Tarim; I. Ozkan

doi:10.1007/s10472-018-9575-0

A new causal discovery heuristic

S. D. Prestwich
, S. A. Tarim
, I. Ozkan

Research output: Contribution to journal › Article › peer-review

Abstract

Probabilistic methods for causal discovery are based on the detection of patterns of correlation between variables. They are based on statistical theory and have revolutionised the study of causality. However, when correlation itself is unreliable, so are probabilistic methods: unusual data can lead to spurious causal links, while nonmonotonic functional relationships between variables can prevent the detection of causal links. We describe a new heuristic method for inferring causality between two continuous variables, based on randomness and unimodality tests and making few assumptions about the data. We evaluate the method against probabilistic and additive noise algorithms on real and artificial datasets, and show that it performs competitively.

Original language	English
Pages (from-to)	245-259
Number of pages	15
Journal	Annals of Mathematics and Artificial Intelligence
Volume	82
Issue number	4
DOIs	https://doi.org/10.1007/s10472-018-9575-0
Publication status	Published - 1 Apr 2018

Keywords

Causality
Randomness
Unimodality

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title = "A new causal discovery heuristic",

abstract = "Probabilistic methods for causal discovery are based on the detection of patterns of correlation between variables. They are based on statistical theory and have revolutionised the study of causality. However, when correlation itself is unreliable, so are probabilistic methods: unusual data can lead to spurious causal links, while nonmonotonic functional relationships between variables can prevent the detection of causal links. We describe a new heuristic method for inferring causality between two continuous variables, based on randomness and unimodality tests and making few assumptions about the data. We evaluate the method against probabilistic and additive noise algorithms on real and artificial datasets, and show that it performs competitively.",

keywords = "Causality, Randomness, Unimodality",

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AU - Tarim, S. A.

AU - Ozkan, I.

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N2 - Probabilistic methods for causal discovery are based on the detection of patterns of correlation between variables. They are based on statistical theory and have revolutionised the study of causality. However, when correlation itself is unreliable, so are probabilistic methods: unusual data can lead to spurious causal links, while nonmonotonic functional relationships between variables can prevent the detection of causal links. We describe a new heuristic method for inferring causality between two continuous variables, based on randomness and unimodality tests and making few assumptions about the data. We evaluate the method against probabilistic and additive noise algorithms on real and artificial datasets, and show that it performs competitively.

AB - Probabilistic methods for causal discovery are based on the detection of patterns of correlation between variables. They are based on statistical theory and have revolutionised the study of causality. However, when correlation itself is unreliable, so are probabilistic methods: unusual data can lead to spurious causal links, while nonmonotonic functional relationships between variables can prevent the detection of causal links. We describe a new heuristic method for inferring causality between two continuous variables, based on randomness and unimodality tests and making few assumptions about the data. We evaluate the method against probabilistic and additive noise algorithms on real and artificial datasets, and show that it performs competitively.

KW - Causality

KW - Randomness

KW - Unimodality

UR - https://www.scopus.com/pages/publications/85043705539

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SP - 245

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JO - Annals of Mathematics and Artificial Intelligence

JF - Annals of Mathematics and Artificial Intelligence

IS - 4

ER -

A new causal discovery heuristic

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Keywords

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