Inbound-Assembly Shop Logistics (INASHLO) Optimization by locating temporary storage (stock) with Fuzzy – six sigma approach

Khamisabadi J.1,2,3, Rouhina M.4,5, Rahmani B.4
1 Islamic Azad University
2 Middle East BALABAN Supply Chain Engineering Co
3 World Logistics Engineering Institute
4 Iran Khodro Corporation (IKCO)
5 University of Tehran

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Экономика, предпринимательство и право (РИНЦ, ВАК)
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Том 9, Номер 4 (Октябрь-Декабрь 2019)

Цитировать:
Khamisabadi J., Rouhina M., Rahmani B. Inbound-Assembly Shop Logistics (INASHLO) Optimization by locating temporary storage (stock) with Fuzzy – six sigma approach // Экономика, предпринимательство и право. – 2019. – Том 9. – № 4. – С. 639-658. – doi: 10.18334/epp.9.4.41525.

Эта статья проиндексирована РИНЦ, см. https://elibrary.ru/item.asp?id=42471367

Аннотация:
The main objective of this study was to determine the best location for temporary storage to facilitate assembly lines feeding operation in the field of Inbound-Assembly Shop Logistics (INASHLO) Optimization and supply chain management in automobile assembly Tondar 90 Iranian companies. In the first step, the initial study, the assembly hall was divided into four areas .This division is based on the opinions of experts and the establishment of assembly lines. Each area separately studied by the three groups of Industrial Engineering and also introduced three proposed location in each area for establishing the temporary storage. Then, by the expert group, supplying key indicators in each of the proposed location in each area were calculated. Supply key indicators studied in this study include the transportation cost and standard time. Using a set of control data for data matching trapezoidal fuzzy numbers to classify data obtained from undergraduate studies were performed on seven floors. Then, with the use of fuzzy Topsis, priority areas and proposed locations to establishing a temporary storage in the assembly hall were determined. Finally, after two stages of research, to finally establishing a temporary storage, the second area and first proposed location in this area were selected.

Ключевые слова: INASHLO, supply chain management, logistics, Fuzzy TOPSIS, stock

JEL-классификация: M11, M21, M16

Источники:

1. Alinaghian M., Borouzi M. Introduce a mathematical programming model in order to locating the warehouses in the vehicle routing // Journal of science. – 2010. – № 49. – С. 286-99.
Christofides N., Hadji constantinou E, Mingozzi A. Have presented a model for determining the order point and optimizing the size of order considering the transportation costs. - The Management School imperial Collage, London, 405(1), 1993. – 248-220 с.
3. Dantzig G.B, Fulderson R., Johnson S.M. Solution of a Large Scale Traveling Salesman Problem // Management Science. – 2016. – № 6. – С. 91-80.
4. Rusdiansyah A., De-bi Tsao An integrated model of the periodic delivery problems for vending-machine supply chains // Management Science. – 2004. – № 5. – С. 191-180.
5. Tai-Hsi Wu, Chinyao Low, Jiunn-Wei Bai Heuristic solutions to multi-depot location-routing problems // Management Science. – 2001. – № 200(2). – С. 77-100.
6. Tolouei ashalaghi Abbas, Mohadeseh M. Introduce a Machinery optimal layout method using a mathematical model // Management Researches. – 2010. – № 21(87). – С. 81-94.
Mehrmanesh H., Khamisabadi J., et al. Introducing a Model in Order to Logistics Balance with the Aim of Improving for Total Expected Cost // Case Study: Tondar 90 Assembly shop – Iran khodro Co: Journal of Basic and Applied Scientific Research 3(3). 2013. – С. 285-292.
8. Wen-Chyuan Chiang, Russellas R.A. Integrating purchasing and routing in a propane gas supply chain // Management Science. – 2002. – № 30(3). – С. 88-101.

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