Based on the multi-objective programming model, this paper explores the purchasing and transshipment schemes of enterprises

Jiangpeng  Fang; Wei  Wang

doi:10.54691/bcpbm.v33i.2744

Authors

Jiangpeng Fang
Wei Wang

DOI:

https://doi.org/10.54691/bcpbm.v33i.2744

Keywords:

Economic efficiency, TOPSIS, Multi-objective planning, Sequential algorithm.

Abstract

When an enterprise is producing, the production cost directly affects the overall economic benefit. If the production plan can be made in advance according to historical data, the production benefit of the enterprise can be greatly improved. For this reason, according to the historical data provided by a building and decorative board manufacturer, the TOPSIS method is used to evaluate suppliers, considering the minimum number of suppliers required for enterprise production, and trying to pursue the minimum purchasing cost and the minimum transportation loss, a multi-objective mathematical programming model is established, which is solved by sequential algorithm and target weighting method respectively, and the minimum number of suppliers, the ordering scheme and transportation scheme in the next 24 weeks are obtained.

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References

Zhiliang Li, Fang Luo, Tianjin Zhang. A Grey Cluster Evaluation Method Based on Multi-level Analysis and Entropy Weight[J].Journal of Yanbian University (Natural Science Edition),2017,43(04):321-326.

Shih H S, Shyur H J, Lee E S. An extension of TOPSIS for group decision making[J]. Mathematical & Computer Modelling, 2007, 45(7):801-813.

Jiming Hu, Xuyang Lou, Kaipeng Jin. Sequential Algorithm and Genetic Algorithm for Multi-objective Programming Problems[C]/2005 Annual Conference on Automation in Six Provinces and One City in East China. Hefei: Journal of University of Science and Technology of China,2005.

Zhonggeng Han. Practical Operations Research Models, Methods and Calculations[M].Beijing: Tsinghua University Press,2007.

Yuting Lu, Yuyou Lin, Qiaozi Peng, Yingzhe Wang. Review of simulation annealing algorithm improvement and parameter exploration[J].University Mathematics,2015,31(06):96-103.

Misevičius, Alfonsas. A Modified Simulated Annealing Algorithm for the Quadratic Assignment Problem[J]. Informatica,2003,14(4):

Xuxiang Huang,Binglin Cheng. Research on Raw Material Ordering and Transportation Model Based on Multi-objective Programming and ARIMA[J]. Academic Journal of Computing & Information Science,2022,5.0(1.0).

Ruixin Wang,Qifei Yang. Research on Neural Network of Enterprise Raw material production and Transportation based on Multi-objective programming[J]. Academic Journal of Business & Management,2021,3.0(12.0).

Xu Han,Zhang Ruisi,Zhang Jinghan,Li Dongge,Xu Hanmei. Research on Raw Material Ordering and Transportation Model Based on Multi-objective Planning Index System[J].Trade Show Economy, 2022(08):98-101.

LIU Zengfang,ZHANG Qiannan. Research on Raw Material Ordering and Transportation of Production Enterprises Based on Multi-objective Planning[J].Enterprise Science and Technology and Development, 2022(04):134-137.