Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The intermittent demand for spare parts of an aircraft engine which results from their random wear and tear during operation makes it difficult to manage logistic supply chains in MRO company. The supply chains indicate the need to develop information technology to support resource planning in an enterprise. The response to that are studies on new methods of forecasting the demand for spare parts replaced in engine overhaul using artificial neural networks. The article presents the concept of using OWL AEDO ontology in selecting independent variables for regressive SSN models. Such a solution allows to implement a systemic approach to SSN construction, and in effect to use SSN in forecasting for a wider range of spare parts. Due to the high requirements of flight safety, aircrafts are equipped with numerous data acquisition systems, data analysis and comprehensive diagnostics of their components, and aircraft engines undergo particular scrutiny. The data is collected in specialist bases, which after processing with artificial intelligence methods may bring significant economic gains for the MRO business.
Czasopismo
Rocznik
Tom
Strony
287--297
Opis fizyczny
Bibliogr. 18 poz., fig.
Twórcy
autor
- Department of Economy, University of Information Technology and Management, 35-225 Rzeszow, Sucharskiego 2, Poland
Bibliografia
- 1. Allemang D. & Hendler J. (2011), Semantic Web for the Working Ontologies, Effective Modeling in RDFS and OWL.
- 2. Balicki W. (2011), Processing information stored for operating DVR OBJECTIVES diagnosing the state of the turbine aircraft engine, Transactions of the institute of aviation. Aircraft power plant issues, No. 213, Warsaw, pp. 212–223.
- 3. Carter T.J. (2005), Common failures in gas turbine blades, Engineering Failure Analysis, Vol. 12, Issue 2, pp. 237–247.
- 4. Euzenat J. (1996), Corporative memory through cooperative creation of knowledge bases and hyper-documents. In: Proc. 10th Knowledge Acquisition for Knowledge-Based Systems Workshop, Banff, pp. 1-8.
- 5. Farooq Anjum M., Imran Tasadduq & Khaled Al-Sultan (1997), Response surface methodology: A neural network approach, European Journal of Operational Research, Vol. 101, Issue 1, pp. 65-73.
- 6. Gosiewski Z., Majewski P. & Żokowski M. (2011), Vibration analysis and tribological research in the diagnosis of turboprop aircraft engine, Transactions of the institute of aviation. Aircraft power plant issues, No. 213, pp.161–169.
- 7. Gruber T.R. (1993), A translation approach to portable ontology specification, Knowledge Acquisition 5, pp. 199–220.
- 8. Kozik P. (2014), Aircraft Engine Overhaul Spare Parts Demand Forecasting, PhD Thesis, Rzeszow University of Technology.
- 9. Kozik P. & Sęp J. (2012), Aircraft Engine Overhaul Demand Forecasting using ANN, Management and Production Engineering Review, vol. 3, No. 2, pp. 21–26.
- 10. Kuofie E.J. (2010), RaDEX: A Rationale-Based Ontology for Aerospace Design Explanation.
- 11. Lenat D.B. & Guha R.V. (1990), Building Large Knowledge-Based Systems: Representation and Inference in the Cycle Project, Addison-Wesley.
- 12. Neches R., Fikes R.E., Finin T., Gruber T.R., Senator T. & Swartout W.R. (1991), Enabling technology for knowledge sharing, AI Magazine 12, pp. 37-52.
- 13. Rowiński A. (2011), Case and bearing housing turboprop aircraft engine, Transactions of the institute of aviation. Aircraft power plant issues, No. 213, pp. 245-251.
- 14. Rosienkiewicz M. (2013), Efficiency Analysis of Information Criteria Application in Spare Parts Demand Forecasting, Material Management & Logistics , PWE, No. 3, pp. 11–21.
- 15. Staab S., Schnurr H.P., Studer R. & Sure Y. (2001), Knowledge processes and ontologies, IEEE Intelligent Systems, pp 26–34.
- 16. Swartou B., Ramesh P., Knight K. & Russ T. (1997), Toward Distributed Use of Large-Scale Ontologies, AAAI Symposium on Ontological Engineering, pp. 138–148.
- 17. Westa M. (2008), On the Z. HELLWIG'S method and the S. BARTOSIEWICZ'S method of explanatory variable selection in the econometric model, Statistic and Econometrics Committee, Polish Academy of Sciences, Vol. 55, Issue 1, pp. 67–78.
- 18. Zhu H., Gao J., Li D. & Tang D. (2012), A Web-based Product Service System for aerospace maintenance, repair and overhaul services, Computers in Industry, Vol. 63, Issue 4, pp. 338–348.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 12/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-362ba8e4-8f24-49fe-8033-8a35a3f31532