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Extracting knowledge of preventive maintenance using data mining technique in interaction with production within textile industry

Document Type : Original Article

Author

Department of Industrial Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran.

Abstract

In the current research, the dataset for conducting data mining calculations was generated based on a sample with 2,000 data, reports of the general manager of the textile industry of Iran's Ministry of Industry, Mine and Trade (information from 240 industrial units and 630 spinning and weaving units were collected), and textile industry plants in Borujerd as the place for implementing the plan between 2015 and 2019, a period 6 month each year. Due to extensive information from the textile industry (with the help of the Ministry of Industry, Mine and Trade), the current research is unique. Using IBM SPSS Modeler 18, the most significant results of datamining calculations to extract knowledge are as follows, which are arranged based on main predictors of the research: predicting models of "strategy innovation in net with data code (A5)" with the prediction wight of 0.34; "technology innovation in net with data code (A1)" with the prediction wight of 0.30; "work environment innovation in net with data code (A3)" with the prediction wight of 0.16; Quality innovation in net with data code (A4)" with the prediction wight of 0.15; "employe  innovation in net with data code (A2)" with the prediction wight of 0.10 are utilized to accurately analyze preventive maintenance in interaction with production.

Keywords

References
 [1]    Linnéusson, G., Ng, A. H. C., & Aslam, T. (2018). Relating strategic time horizons and proactiveness in equipment maintenance: A simulation-based optimization study. Procedia cirp, 72, 1293–1298. DOI:10.1016/j.procir.2018.03.219
[2]     Kuboki, N., & Takata, S. (2019). Selecting the optimum inspection method for preventive maintenance. Procedia cirp, 80, 512–517.
[3]     Koushaki, M., & Bahari, A. (2018). The role of maintenance in industry and its optimized effect on production. The 6th annual national conference of mechanical, industrial and aerospace engineering of Iran. Civilica. (In Persian). https://civilica.com/doc/902769/
[4]     Kamali, M., & Amin Doost, A. (2018). Developing risk-based periodic inspection pattern for maintenance within district 2 of gas transfer operations. National conference on applied research in management & industrial engineering. Civilica. (In Persian). https://civilica.com/doc/903523/
[5]     Firuzi, E. (2018). Providing a proper model for choosing a suitable strategy of maintenance (net) via fuzzy dematel and grey vikor approaches. 4th national conference on economics management and accounting of Iran, concentrating on local and world marketing. Civilica. (In Persian). https://civilica.com/l/10342/
[6]     Linnéusson, G., Ng, A. H. C., & Aslam, T. (2018). Quantitative analysis of a conceptual system dynamics maintenance performance model using multi-objective optimisation. Journal of simulation, 12(2), 171–189. DOI:10.1080/17477778.2018.1467849
[7]     Chemweno, C. (2009). Survey of operational budgetary process and challenges in the mortgage financing institutions in Kenya (Ph.D Thesis, University of Nairobi). http://erepository.uonbi.ac.ke:8080/xmlui/handle/123456789/12851
[8]     Ozcan, S., & Simsir, F. (2019). A new model based on Artificial Bee Colony algorithm for preventive maintenance with replacement scheduling in continuous production lines. Engineering science and technology, an international journal, 22(6), 1175–1186. DOI:10.1016/j.jestch.2019.08.003
[9]     Laks, P., & Verhagen, W. J. C. (2018). Identification of optimal preventive maintenance decisions for composite components. Transportation research procedia, 29, 202–212. DOI:10.1016/j.trpro.2018.02.018
[10]   Castellón González, P., & Velásquez, J. D. (2013). Characterization and detection of taxpayers with false invoices using data mining techniques. Expert systems with applications, 40(5), 1427–1436. DOI:10.1016/j.eswa.2012.08.051
Computational Algorithms and Numerical Dimensions
Volume 2, Issue 2
June 2023
Pages 63-73
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