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Journal of Intelligent Manufacturing
Erschienen in: Journal of Intelligent Manufacturing 5/2016

27.06.2014

Distributed production planning based on ATC and MOILP considering different coordination patterns

verfasst von: Jieguang He, Xin Chen, Xindu Chen, Qiang Liu

Erschienen in: Journal of Intelligent Manufacturing | Ausgabe 5/2016

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Abstract

This paper is aimed at employing analytical target cascading (ATC) to solve the distributed production planning problem. In the ATC hierarchy, by setting a parent element to the core enterprise and a child element to each manufacturer, the core enterprise can negotiate the plans with the manufactures. Individual manufactures are able to make production plans autonomously, and finally achieve the global objective under the coordination of the core enterprise. ATC offers an independent decision making ability to each member, a decentralize coordination strategy to the core enterprise and a parallel computing method to the planning model. In order to obtain the concrete production quantities and balance the costs and the service levels, a multi-objective integer linear programming has also been introduced in the model, where different costs have different weights. By setting different weights to different optimization objectives, the core enterprise can obtain the lowest overall cost or the best service quantity. Meanwhile, from a strategic point of view, two coordination patterns, competitive and cooperative, through modifying the iterative mode of ATC, are addressed here. The competitive pattern make the core enterprise achieve a lower cost, while the cooperative pattern make the core enterprise maintain a better relationship with the manufactures. A series of comparative analyses are conducted to identify the strengths of the ATC method and demonstrate the effectiveness of the proposed coordination patterns. In particular, one of these experiments, which considers the quantity discount, has been done to further verify the effectiveness of the ATC based coordination mechanism while encountering the newly added decision-making factors.
Vorheriger Artikel Developing a multi-objective genetic optimisation approach for an operational design of a manual mixed-model assembly line with walking workers
Nächster Artikel An interoperable adaptive scheduling strategy for knowledgeable manufacturing based on SMGWQ-learning

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Literatur
Allison, J., Kokkolaras, M., Zawislak, M., & Papalambros, P. Y. (2005). On the use of analytical target cascading and collaborative optimization for complex system design. In Sixth world congress on structural and multidisciplinary optimization. Rio de Janeiro, Brazil
Allison, J., Walsh, D., Kokkolaras, M., Papalambros, P. Y., & Cartmell, M. (2006). Analytical target cascading in aircraft design. In Proceedings of the 44th AIAA aerospace sciences meeting and exhibit, Reno, NV, USA.
Alves, M. J., & Clímaco, J. (2000). An interactive reference point approach for multiobjective mixed-integer programming using branch-and-bound. European Journal of Operational Research, 124(3), 478–494.CrossRef
Alves, M. J., & Clímaco, J. (2004). A note on a decision support system for multiobjective integer and mixed-integer programming problems. European Journal of Operational Research, 155(1), 258–265.CrossRef
Bhatnagar, R., Chandra, P., & Goyal, S. K. (1993). Models for multi-plant coordination. European Journal of Operational Research, 67(2), 141–160.CrossRef
Chan, F. T. S., Chung, S. H., & Choy, K. L. (2006). Optimization of order fulfillment in distribution network problems. Journal of Intelligent Manufacturing, 17(3), 307–319.CrossRef
Choudhary, R., Malkawi, A., & Papalambros, P. Y. (2005). Analytic target cascading in simulation-based building design. Automation in Construction, 14(4), 551–568.CrossRef
Cooper, A. B., Georgiopoulos, P., Kim, H. M., & Papalambros, P. Y. (2006). Analytical target setting: An enterprise context in optimal product design. Journal of Mechanical Design, 128(1), 4–13.CrossRef
Dhaenens-Flipo, C., & Finke, G. (2001). An integrated model for industrial production–distribution problem. IIE Transactions, 33(9), 705–715.
Gnoni, M. G., Iavagnilio, R., Mossa, G., Mummolo, G., & Di Leva, A. (2003). Production planning of a multi-site manufacturing system by hybrid modelling: A case study from the automotive industry. International Journal of Production Economics, 85(2), 251–262.CrossRef
Hiremath, N. C., Sahu, S., & Tiwari, M. K. (2012). Multi objective outbound logistics network design for a manufacturing supply chain. Journal of Intelligent Manufacturing. doi:10.​1007/​s10845-012-0635-8.
Huang, G. Q., & Qu, T. (2008). Extending analytical target cascading for optimal configuration of supply chains with alternative autonomous suppliers. International Journal of Production Economics, 115(1), 39–54.
Kim, H. M., Michelena, N. F., Papalambros, P. Y., & Jiang, T. (2000). Target cascading in optimal system design. In Proceedings of the 2000 ASME design automation conference, DAC-14265, Baltimore, MD, USA.
Ling, L. Y., Liang, L., & Pu, X. J. (2006). ATC based coordination of distributed production planning and supplier selection. Applied Mathematics and Computation, 182(2), 1154–1168.CrossRef
Luo, Y. C., Guignard, M., & Chen, C. H. (2001). A hybrid approach for integer programming combining genetic algorithms, linear programming and ordinal optimization. Journal of Intelligent Manufacturing, 12(5–6), 509–519.CrossRef
Maravelias, C. T., & Sung, C. (2009). Integration of production planning and scheduling: Overview, challenges and opportunities. Computers and Chemical Engineering, 33(12), 1919–1930.CrossRef
Meyr, H., Wagner, M., & Rohde, J. (2002). Structure of advanced planning systems. In H. Stadtler & C. Kilger (Eds.), Supply chain management and advanced planning: Concepts, models software and case studies (2nd ed., pp. 99–104). Berlin: Springer.
Michalek, J. J., & Papalambros, P. Y. (2005). An efficient weighting update method to achieve acceptable consistency deviation in analytical target cascading. Journal of Mechanical Design, 127(2), 206–214.CrossRef
Michelena, N. F., Park, H. A., & Papalambros, P. Y. (2003). Convergence properties of analytical target cascading. AAIA Journal, 41(5), 897–905.CrossRef
Nigro, G. L., Diega, S. N. L., Perrone, G., & Renna, P. (2003). Coordination policies to support decision making in distributed production planning. Robotics and Computer-Integrated Manufacturing, 19(6), 521–531.CrossRef
Nishi, T., & Konishi, M. (2005). An autonomous decentralized supply chain planning system for multi-stage production processes. Journal of Intelligent Manufacturing, 16(3), 259–275.CrossRef
Qu, T., Huang, G. Q., Chen, X., & Chen, H. P. (2009). Extending analytical target cascading for optimal supply chain network configuration of a product family. International Journal of Computer Integrated Manufacturing, 22(11), 1012–1023.CrossRef
Qu, T., Huang, G. Q., Zhang, Y., & Dai, Q. Y. (2010a). A generic analytical target cascading optimization system for decentralized supply chain configuration over supply chain grid. International Journal of Production Economics, 127(2), 262–277.CrossRef
Qu, T., Huang, G. Q., Van-Dat, C., & Mangione, F. (2010b). Optimal configuration of assembly supply chains using analytical target cascading. International Journal of Production Research, 48(23), 6883–6907.CrossRef
Seifbarghy, M., & Esfandiari, N. (2013). Modeling and solving a multi-objective supplier quota allocation problem considering transaction costs. Journal of Intelligent Manufacturing, 24(1), 201–209.CrossRef
Tosserams, S., Etman, L., Papalambros, P., & Rooda, J. (2006). An augmented Lagrangian relaxation for analytical target cascading using the alternating direction method of multipliers. Structural and Multidisciplinary Optimization, 31(3), 176–189.CrossRef
Xiang, W., Song, F., & Ye, F. (2013). Order allocation for multiple supply-demand networks within a cluster. Journal of Intelligent Manufacturing. doi:10.​1007/​s10845-013-0735-0.
Metadaten
Titel
Distributed production planning based on ATC and MOILP considering different coordination patterns
verfasst von
Jieguang He
Xin Chen
Xindu Chen
Qiang Liu
Publikationsdatum
27.06.2014
Verlag
Springer US
Erschienen in
Journal of Intelligent Manufacturing / Ausgabe 5/2016
Print ISSN: 0956-5515
Elektronische ISSN: 1572-8145
DOI
https://doi.org/10.1007/s10845-014-0935-2

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