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Journal of Intelligent Manufacturing
Erschienen in: Journal of Intelligent Manufacturing 4/2017

24.12.2014

A production-inventory model with imperfect production process and partial backlogging under learning considerations in fuzzy random environments

verfasst von: Gour Chandra Mahata

Erschienen in: Journal of Intelligent Manufacturing | Ausgabe 4/2017

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Abstract

In this paper, we investigates the learning effect of the unit production time on optimal lot size for the imperfect production process with partial backlogging of shortage quantity in fuzzy random environments. It is assumed that the setup cost, the average holding cost, the backorder cost, the raw material cost and the labour cost are characterized as fuzzy variables and the elapsed time until the machine shifts from “in-control” state to “out-of-control” state is characterized as a fuzzy random variable. As a function of these parameters, the average total cost is also a random fuzzy variable. Based on the credibility measure of fuzzy event, the fuzzy random total cost function is transformed into an equivalent crisp function. We propose an algorithm to determine the optimal solution. Furthermore, the model is illustrated with the help of numerical example. Finally, sensitivity analysis of the optimal solution with respect to major parameters is carried out.
Vorheriger Artikel Remanufacturer’s production strategy with capital constraint and differentiated demand
Nächster Artikel Enhancing the monitoring of 3D scanned manufactured parts through projections and spatiotemporal control charts

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Literatur
Chakraborty, T., Giri, B. C., & Chaudhuri, K. S. (2008). Production lot sizing with process deterioration and machine breakdown. European Journal of Operational Research, 185(2), 606–618.CrossRef
Chen, C. K., Lo, C. C., & Liao, Y. X. (2008). Optimal lot size with learning consideration on an imperfect production system with allowable shortages. International Journal of Production Economics, 113(1), 459–469.CrossRef
Chung, K. J., & Hou, K. L. (2003). An optimal production run time with imperfect production processes and allowable shortages. Computers & Operations Research, 30(4), 483–490.CrossRef
Giri, B. C., & Dohi, T. (2007). Inspection scheduling for imperfect production processes under free repair warranty contract. European Journal of Operational Research, 183(1), 238–252.CrossRef
Hu, J. S., Zheng, H., Guo, C. Y. & Ji, Y. P. (2010). Optimal production run length with imperfect production processes and backorder in fuzzy random environment, Computers & Industrial Engineering, 59, 1, 9–15.
Hyun Kim, C., & Hong, Y. (1999). An optimal production run length in deteriorating production processes. International Journal of Production Economics, 58(2), 183–189.CrossRef
Jaber, M. Y., & Salameh, M. K. (1995). Optimal lot sizing under learning considerations: Shortages allowed and backordered. Applied Mathematical Modelling, 19(5), 307–310.CrossRef
Jaber, M. Y., & Bonney, M. (1996). Optimal lot sizing under learning considerations: The bounded learning case. Applied Mathematical Modelling, 20(10), 750–755.CrossRef
Jaber, M. Y., & Bonney, M. (1997). The effect of learning and forgetting on the economic manufactured quantity (EMQ) with the consideration of intracycle backorders. International Journal of Production Economics, 53(1), 1–11.CrossRef
Jaber, M. Y., & Guiffrida, A. L. (2004). Learning curves for processes generating defects requiring reworks. European Journal of Operational Research, 159(3), 663–672.CrossRef
Jaber, M. Y., & Guiffrida, A. L. (2008). Learning curves for imperfect production processes with reworks and process restoration interruptions. European Journal of Operational Research, 189(1), 93–104.CrossRef
Lan, Y., Zhao, R., & Tang, W. (2011). Minimum risk criterion for uncertain production planning problems. Computers and Industrial Engineering, 61(3), 591–599.
Liao, G. L., Chen, Y. H., & Sheu, S. H. (2009). Optimal economic production quantity policy for imperfect process with imperfect repair and maintenance. European Journal of Operational Research, 195(2), 348–357.CrossRef
Liao, G. L. (2012). Optimal economic production quantity policy for randomly failing process with minimal repair, backorder and preventive maintenance. International Journal of Systems Science. doi:10.​1080/​00207721.​2012.​659702
Liu, B., & Liu, Y. (2002). Expected value of fuzzy variable and fuzzy expected value models. IEEE Transactions on Fuzzy Systems, 10(4), 445–450.CrossRef
Liu, B. (2002). Theory and practice of uncertain programming. Heidelberg: Physica.CrossRef
Liu, B. (2003). Uncertainty theory: Toward axiomatic foundations. Lecture Note, Tsinghua University.
Liu, Y., & Liu, B. (2003a). Fuzzy random variables: A scalar expected value operator. Fuzzy Optimization and Decision Making, 2(2), 143–160.CrossRef
Liu, Y., & Liu, B. (2003b). Expected value operator of random fuzzy variable and random fuzzy expected value models. International Journal of Uncertainty Fuzziness and Knowledge-Based Systems, 11(2), 195–215.CrossRef
Liu, Y. (2013). Uncertain random variables: A mixture of uncertainty and randomness. Soft Computing, 17(4), 625–634.CrossRef
Maity, K., & Maiti, M. (2007). Possibility and necessity constraints and their defuzzification—A multi-item production-inventory scenario via optimal control theory. European Journal of Operational Research, 177(2), 882–896.CrossRef
Nahmias, S. (1978). Fuzzy variables. Fuzzy Sets and Systems, 1(2), 97–110.CrossRef
Rosenblatt, M. J., & Lee, H. L. (1986). Economic production cycles with imperfect production processes. IIE Transactions, 18(1), 48–55.CrossRef
Salameh, M. K., Abdul-Malak, M. A. U., & Jaber, M. Y. (1993). Mathematical modelling of the effect of human learning in the finite production inventory model. Applied Mathematical Modelling, 17(11), 613–615.CrossRef
Sana, S. S. (2010). An economic production lot size model in an imperfect production system. European Journal of Operational Research, 201(1), 158–170.CrossRef
Wang, X., & Tang, W. (2009). Optimal production run length in deteriorating production processes with fuzzy elapsed time. Computers & Industrial Engineering, 56(4), 1627–1632.CrossRef
Zhang, C., Zhao, R., & Tang, W. (2009). Optimal run lengths in deteriorating production processes in random fuzzy environments. Computers & Industrial Engineering, 57(3), 941–948.CrossRef
Metadaten
Titel
A production-inventory model with imperfect production process and partial backlogging under learning considerations in fuzzy random environments
verfasst von
Gour Chandra Mahata
Publikationsdatum
24.12.2014
Verlag
Springer US
Erschienen in
Journal of Intelligent Manufacturing / Ausgabe 4/2017
Print ISSN: 0956-5515
Elektronische ISSN: 1572-8145
DOI
https://doi.org/10.1007/s10845-014-1024-2

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