Learned Constraint Ordering for Consistency Based Direct Diagnosis

Seda Polat Erdeniz; Alexander Felfernig; Müslüm Atas

doi:10.1007/978-3-030-22999-3_31

Learned Constraint Ordering for Consistency Based Direct Diagnosis

Seda Polat Erdeniz, Alexander Felfernig, Müslüm Atas

Institute of Software Technology (7160)

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

Abstract

Configuration systems must be able to deal with inconsistencies which can occur in different contexts. Especially in interactive settings, where users specify requirements and a constraint solver has to identify solutions, inconsistencies may more often arise. In inconsistency situations, there is a need of diagnosis methods that support the identification of minimal sets of constraints that have to be adapted or deleted in order to restore consistency. A diagnosis algorithm’s performance can be evaluated in terms of time to find a diagnosis (runtime) and diagnosis quality. Runtime efficiency of diagnosis is especially crucial in real-time scenarios such as production scheduling, robot control, and communication networks. However, there is a trade off between diagnosis quality and the runtime efficiency of diagnostic reasoning. In this paper, we deal with solving the quality-runtime performance trade off problem of direct diagnosis. In this context, we propose a novel learning approach for constraint ordering in direct diagnosis. We show that our approach improves the runtime performance and diagnosis quality at the same time.

Original language	English
Title of host publication	Advances and Trends in Artificial Intelligence
Subtitle of host publication	From Theory to Practice. IEA/AIE 2019
Place of Publication	Cham
Publisher	Springer
Pages	347-359
ISBN (Print)	978-3-030-22998-6
DOIs	https://doi.org/10.1007/978-3-030-22999-3_31
Publication status	Published - 2019
Event	32nd International Conference on Industrial, Engineering & Other Applications of Applied Intelligent Systems - Graz, Austria Duration: 9 Jul 2019 → 11 Jul 2019

Publication series

Name	Lecture Notes in Computer Science
Volume	11606

Conference

Conference	32nd International Conference on Industrial, Engineering & Other Applications of Applied Intelligent Systems
Abbreviated title	IEA/AIE 2019
Country/Territory	Austria
City	Graz
Period	9/07/19 → 11/07/19

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10.1007/978-3-030-22999-3_31

Cite this

Learned Constraint Ordering for Consistency Based Direct Diagnosis. / Polat Erdeniz, Seda; Felfernig, Alexander; Atas, Müslüm.
Advances and Trends in Artificial Intelligence: From Theory to Practice. IEA/AIE 2019. Cham: Springer, 2019. p. 347-359 (Lecture Notes in Computer Science; Vol. 11606).

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

Polat Erdeniz, S, Felfernig, A & Atas, M 2019, Learned Constraint Ordering for Consistency Based Direct Diagnosis. in Advances and Trends in Artificial Intelligence: From Theory to Practice. IEA/AIE 2019. Lecture Notes in Computer Science, vol. 11606, Springer, Cham, pp. 347-359, 32nd International Conference on Industrial, Engineering & Other Applications of Applied Intelligent Systems, Graz, Austria, 9/07/19. https://doi.org/10.1007/978-3-030-22999-3_31

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abstract = "Configuration systems must be able to deal with inconsistencies which can occur in different contexts. Especially in interactive settings, where users specify requirements and a constraint solver has to identify solutions, inconsistencies may more often arise. In inconsistency situations, there is a need of diagnosis methods that support the identification of minimal sets of constraints that have to be adapted or deleted in order to restore consistency. A diagnosis algorithm{\textquoteright}s performance can be evaluated in terms of time to find a diagnosis (runtime) and diagnosis quality. Runtime efficiency of diagnosis is especially crucial in real-time scenarios such as production scheduling, robot control, and communication networks. However, there is a trade off between diagnosis quality and the runtime efficiency of diagnostic reasoning. In this paper, we deal with solving the quality-runtime performance trade off problem of direct diagnosis. In this context, we propose a novel learning approach for constraint ordering in direct diagnosis. We show that our approach improves the runtime performance and diagnosis quality at the same time.",

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AB - Configuration systems must be able to deal with inconsistencies which can occur in different contexts. Especially in interactive settings, where users specify requirements and a constraint solver has to identify solutions, inconsistencies may more often arise. In inconsistency situations, there is a need of diagnosis methods that support the identification of minimal sets of constraints that have to be adapted or deleted in order to restore consistency. A diagnosis algorithm’s performance can be evaluated in terms of time to find a diagnosis (runtime) and diagnosis quality. Runtime efficiency of diagnosis is especially crucial in real-time scenarios such as production scheduling, robot control, and communication networks. However, there is a trade off between diagnosis quality and the runtime efficiency of diagnostic reasoning. In this paper, we deal with solving the quality-runtime performance trade off problem of direct diagnosis. In this context, we propose a novel learning approach for constraint ordering in direct diagnosis. We show that our approach improves the runtime performance and diagnosis quality at the same time.

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ER -

Learned Constraint Ordering for Consistency Based Direct Diagnosis

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