Exploring the noisy threshold function in designing Bayesian networks

Rasa Jurgelenaite; Peter Lucas; Tom Heskes

doi:10.1007/978-1-84628-226-3_11

Exploring the noisy threshold function in designing Bayesian networks

Rasa Jurgelenaite, Peter Lucas, Tom Heskes

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

7 Citations (Scopus)

Abstract

Causal independence modelling is a well-known method both for reducing the size of probability tables and for explaining the underlying mechanisms in Bayesian networks. Many Bayesian network models incorporate causal independence assumptions; however, only the noisy OR and noisy AND, two examples of causal independence models, are used in practice. Their underlying assumption that either at least one cause, or all causes together, give rise to an effect, however, seems unnecessarily restrictive. In the present paper a new, more flexible, causal independence model is proposed, based on the Boolean threshold function. A connection is established between conditional probability distributions based on the noisy threshold model and Poisson binomial distributions, and the basic properties of this probability distribution are studied in some depth. The successful application of the noisy threshold model in the refinement of a Bayesian network for the diagnosis and treatment of ventilator-associated pneumonia demo nstrates the practical value of the presented theory.

Original language	English
Title of host publication	Research and Development in Intelligent Systems XXII
Subtitle of host publication	Proceedings of AI-2005, the Twenty-fifth SGAI International Conference on Innovative Techniques and Applications of Artificial Intelligence
Editors	Max Bramer, Frans Coenen, Tony Allen
Place of Publication	London
Publisher	Springer
Pages	133-146
Number of pages	14
ISBN (Electronic)	978-1-84628-226-3
ISBN (Print)	978-1-84628-225-6
DOIs	https://doi.org/10.1007/978-1-84628-226-3_11
Publication status	Published - 2006
Externally published	Yes
Event	25th SGAI International Conference on Innovative Techniques and Applications of Artificial Intelligence, AI 2005 - Cambridge, United Kingdom Duration: 12 Dec 2005 → 14 Dec 2005

Conference

Conference	25th SGAI International Conference on Innovative Techniques and Applications of Artificial Intelligence, AI 2005
Country/Territory	United Kingdom
City	Cambridge
Period	12/12/05 → 14/12/05

Keywords

n/a OA procedure

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1007/978-1-84628-226-3_11

Cite this

Jurgelenaite, R., Lucas, P., & Heskes, T. (2006). Exploring the noisy threshold function in designing Bayesian networks. In M. Bramer, F. Coenen, & T. Allen (Eds.), Research and Development in Intelligent Systems XXII: Proceedings of AI-2005, the Twenty-fifth SGAI International Conference on Innovative Techniques and Applications of Artificial Intelligence (pp. 133-146). Springer. https://doi.org/10.1007/978-1-84628-226-3_11

Jurgelenaite, Rasa ; Lucas, Peter ; Heskes, Tom. / Exploring the noisy threshold function in designing Bayesian networks. Research and Development in Intelligent Systems XXII: Proceedings of AI-2005, the Twenty-fifth SGAI International Conference on Innovative Techniques and Applications of Artificial Intelligence. editor / Max Bramer ; Frans Coenen ; Tony Allen. London : Springer, 2006. pp. 133-146

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Jurgelenaite, R, Lucas, P & Heskes, T 2006, Exploring the noisy threshold function in designing Bayesian networks. in M Bramer, F Coenen & T Allen (eds), Research and Development in Intelligent Systems XXII: Proceedings of AI-2005, the Twenty-fifth SGAI International Conference on Innovative Techniques and Applications of Artificial Intelligence. Springer, London, pp. 133-146, 25th SGAI International Conference on Innovative Techniques and Applications of Artificial Intelligence, AI 2005, Cambridge, United Kingdom, 12/12/05. https://doi.org/10.1007/978-1-84628-226-3_11

Exploring the noisy threshold function in designing Bayesian networks. / Jurgelenaite, Rasa; Lucas, Peter; Heskes, Tom.
Research and Development in Intelligent Systems XXII: Proceedings of AI-2005, the Twenty-fifth SGAI International Conference on Innovative Techniques and Applications of Artificial Intelligence. ed. / Max Bramer; Frans Coenen; Tony Allen. London: Springer, 2006. p. 133-146.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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AB - Causal independence modelling is a well-known method both for reducing the size of probability tables and for explaining the underlying mechanisms in Bayesian networks. Many Bayesian network models incorporate causal independence assumptions; however, only the noisy OR and noisy AND, two examples of causal independence models, are used in practice. Their underlying assumption that either at least one cause, or all causes together, give rise to an effect, however, seems unnecessarily restrictive. In the present paper a new, more flexible, causal independence model is proposed, based on the Boolean threshold function. A connection is established between conditional probability distributions based on the noisy threshold model and Poisson binomial distributions, and the basic properties of this probability distribution are studied in some depth. The successful application of the noisy threshold model in the refinement of a Bayesian network for the diagnosis and treatment of ventilator-associated pneumonia demo nstrates the practical value of the presented theory.

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Jurgelenaite R, Lucas P, Heskes T. Exploring the noisy threshold function in designing Bayesian networks. In Bramer M, Coenen F, Allen T, editors, Research and Development in Intelligent Systems XXII: Proceedings of AI-2005, the Twenty-fifth SGAI International Conference on Innovative Techniques and Applications of Artificial Intelligence. London: Springer. 2006. p. 133-146 doi: 10.1007/978-1-84628-226-3_11

Exploring the noisy threshold function in designing Bayesian networks

Abstract

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Keywords

UN SDGs

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