Functional Ontology for Intelligent Instruments

Dapoigny, Richard; Benoit, Eric; Foulloy, Laurent

doi:10.1007/978-3-540-39592-8_13

Richard Dapoigny¹⁰,
Eric Benoit¹⁰ &
Laurent Foulloy¹⁰

Part of the book series: Lecture Notes in Computer Science ((LNAI,volume 2871))

Included in the following conference series:

International Symposium on Methodologies for Intelligent Systems

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5 Citations

Abstract

As a general and challenging task of decisional process in distributed environments, the individual nodes of the network need to exchange specific knowledge in order to achieve their goal. This is the case in distributed instrumentation where a network of intelligent components interact each other to realize some task. A conceptualization of functional knowledge is proposed and we argue that this conceptualization will be represented by ontologies based on mereology and topology. A synthesis of many works in knowledge engineering leads us to propose a knowledge representation with a dual objective. First, it provides instruments designers with a structural and logical framework that allows for easy reuse and secondly, it enable a distributed behavior based on causal representation and on dependencies between functional and behavioral knowledge on each node.

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References

Bouras, A., Staroswiecki, M.: How can Intelligent Instruments Interoperate in an Application Framework? A Mechanism for Taking into Account Operating Constraints. In: Proc. of Int. Conf. SICICA 1997, Annecy, France, June 9–11 (1997)
Google Scholar
Tailland, J., Foulloy, L., Benoit, E.: Automatic Generation of Intelligent Instruments from Internal Model. In: Proc. of 4th IFAC Int.Symp. SICICA 2000, Buenos Aires, Argentina, pp. 337–342 (September 2000)
Google Scholar
Riviere, J.M., Bayart, M., Thiriet, J.M., Bouras, A., Robert, M.: Intelligent instruments: some modelling approaches. Measurement and Control 29, 179–186 (1996)
Google Scholar
Hawkins, R., McDowell, J.K., Sticklen, J., Hill, T., Boyer, R.: Function-based modeling and troubleshooting. Int. Journal of Applied Artificial Intelligence 8, 285–302 (1994)
Article Google Scholar
Umeda, Y., Tomiyama, T., Yoshikawa, H.: A design methodology for a self-maintenance machine based on functional redundancy. In: Taylor, D.L., Stauffer, L.A. (eds.) Design Theory and Methodology - DTM 1992. ASME (1992)
Google Scholar
Kitamura, Y., Mizoguchi, R.: Functional Ontology for Functional Understanding. In: 12th International Workshop on Qualitative Reasoning, Cape Cod, USA, pp. 77–87. AAAI Press, Menlo Park (1998)
Google Scholar
Lind, M.: Modeling Goals and Functions of Complex Industrial Plant. Journal ofApplied Artificial Intelligence (8), 259–283 (1994)
Google Scholar
Chandrasekaran, B., Josephson, J.R.: Function in device Representation. Journal of Engineering with Computers, Special Issue on Computer aided Engineering 16, 162–177 (2000)
MATH Google Scholar
Salustri, F.A.: Function Modeling for an Integrated Framework: A progress Report. In: Cook, D. (ed.) Procs. of FLAIRS 1998, pp. 339–343. AAAI, Menlo Park (1998)
Google Scholar
Umeda, Y., et al.: Supporting conceptualdesign based on thefunction-behavior-state modeler. Artificial Intelligence for Engineering Design, Analysis and Manufacturing 10(4), 275–288 (1996)
Article Google Scholar
Qian, L., Gero, I.: Function-behavior-structure paths andtheir role in analogy-based design. ArtificialIntelligence for Engineering Design, Analysis andManufacturing 10(4), 289–292 (1996)
Article Google Scholar
Kitamura, Y., Sano, T., Namba, K., Mizogushi, R.: A Functional Concept Ontology and its Application to Automatic Identification of Functional Structures. Advanced Engineering Informatics 16(2), 145–163 (2002)
Article Google Scholar

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Authors and Affiliations

Laboratoire d’Informatique des Systèmes, du Traitement de l’Information et de Commande, University of Savoie, BP 806, 74016, ANNECY Cedex
Richard Dapoigny, Eric Benoit & Laurent Foulloy

Authors

Richard Dapoigny
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Eric Benoit
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Laurent Foulloy
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Editors and Affiliations

The International WIC Institute, Beijing University of Technology, China
Ning Zhong
Department of Computer Science, University of North Carolina, NC 28223, Charlotte, USA
Zbigniew W. Raś
Shimane University, 89-1 Enya-cho Izumo, 6938501, Shimane, Japan
Shusaku Tsumoto
Department of Informatics, Graduate School of Information Science and Electrical Engineering, Kyushu University, 744 Motooka, Nishi, 819-0395, Fukuoka, Japan
Einoshin Suzuki

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Dapoigny, R., Benoit, E., Foulloy, L. (2003). Functional Ontology for Intelligent Instruments. In: Zhong, N., Raś, Z.W., Tsumoto, S., Suzuki, E. (eds) Foundations of Intelligent Systems. ISMIS 2003. Lecture Notes in Computer Science(), vol 2871. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-39592-8_13

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DOI: https://doi.org/10.1007/978-3-540-39592-8_13
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-20256-1
Online ISBN: 978-3-540-39592-8
eBook Packages: Springer Book Archive

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