The Simplification Method of Engineering Task Sequences used for Engineering Knowledge Portals
Keywords:
engineering tasks, classification and computation simplification, algebraic system, operations, web services
Abstract
The paper deals with the approach that can be used to increase the efficiency of the engineering task composition and their performance improvement. The simplification method of engineering task sequences is proposed. This method allows forming the minimized set of engineering task elements used for business process design and its execution. The specific algebraic system for designing the sequence of engineering tasks based on the simplification method of engineering task sequences that realized classification and minimization of computation sequence is described. The algebraic system involves formal context-independent structures for the representation of the engineering task elements. The example of using the approach for real engineering tasks is presented. The quantitative evaluation of the efficiency increase in the engineering tasks of the “Strength of materials” subject domain is given.Downloads
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References
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Shehu, U., Epiphaniou, G., & Safdar, G. A. (2014). A survey of QoS-aware web service composition techniques. International Journal of Computer Applications.
Martin, D., Paolucci, M., McIlraith, S., Burstein, M., McDermott, D., McGuinness, D., ... & Srinivasan, N. (2004). Bringing semantics to web services: The OWL-S approach. In Semantic Web Services and Web Process Composition (pp. 26-42). Springer Berlin Heidelberg.
Moghaddam, M., & Davis, J. G. (2014). Service selection in web service composition: A comparative review of existing approaches. In: Web Services Foundations (pp. 321-346). Springer New York.
Kolb D.G. Web-oriented realization of semantic models for intellectual systems // Proceedings of scientific conference “«Open Semantic Technologies for Intelligent Systems (OSTIS-2012)”, - Minsk, 2012. – P. 111–122.
E.M. Maximilien and M.P. Singh., “A framework and ontology for dynamic web services selection,” IEEE Internet Computing, vol. 8, pp. 84-93, Sep./Oct. 2004.
Ngan, L. D., & Kanagasabai, R. (2013). Semantic Web service discovery: stateof-the-art and research challenges. Personal and ubiquitous computing, 17(8), 1741-1752
Hatzi, O., Vrakas, D., Nikolaidou, M., Bassiliades, N., Anagnostopoulos, D., & Vlahavas, I. (2012).
Alexander Koval, Larisa Globa, Rina Novogrudska The approach to web sevices composition, Hard and Soft Computing for Artificial Intelligence, Multimedia and Security, Volume 534 of the series Advances in Intelligent Systems and Computing, Springer international publication AG, pp 293-304 (2017).
Barwise J. Handbook of Mathematical Logic. Studies in Logic and the Foundations of Mathematics. North Holland (1989).
Burris Stanley N.; Sankappanavar, H. P. A Course in Universal Algebra, Berlin, New York: Springer-Verlag, (1981).
Glushkov V.M., Ceitlin E.L., Yushenko E.L., Algebra. Languages. Programing. Kyiv: Naukova Dumka, 1989. – 376 p.
Shahovska N.B. Data space in sphere of scientific research // Modeling and information technologies. – 2008. – № 45. – P. 132–140
Kenneth H. Rosen. Discrete Mathematics: And Its Applications. McGraw-Hill College. ISBN 978-0-07-288008-3. (2007)
John Dwyer. An Introduction to Discrete Mathematics for Business & Computing. ISBN 978-1-907934-00-1. (2010)
Telenik S.F.: Logic of computation processes representation in the intellectual system SmartBase. In System technologies. System modeling of technological processes, pp. 131- 139, Kyiv (1999)
Globa L.S., Novogrudska R.L., An approach to formal system for knowledge portals development, Ontology of designing. - 2014. - №2(11). – ISSN 2223-9537- P.40-59
Norms for the strength calculation for the power components of magnetic systems. – Kyiv: ISP, 1984. – 73 p. (in Ukrainian)
Norms for the strength calculation for equipment and pipelines of nuclear power systems – M.: Energoatomizdat, 1989. – 525 p. (in Ukrainian)
Published
2018-01-19
How to Cite
Globa, L., Koval, O., & Novogrudska, R. (2018). The Simplification Method of Engineering Task Sequences used for Engineering Knowledge Portals. Bulletin of V.N. Karazin Kharkiv National University, Series «Mathematical Modeling. Information Technology. Automated Control Systems», 37(1), 37-44. Retrieved from https://periodicals.karazin.ua/mia/article/view/10515
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