Buradasınız

Anasayfa » Content

Integrated production planning and control: A multi-objective optimization model

Journal Name:

  • Journal of Industrial Engineering and Management

Publication Year:

  • 2013

Key Words:

Author NameUniversity of Author
Abstract (2. Language): 
Purpose: Production planning and control has crucial impact on the production and business activities of enterprise. Enterprise Resource Planning (ERP) is the most popular resources planning and management system, however there are some shortcomings and deficiencies in the production planning and control because its core component is still the Material Requirements Planning (MRP). For the defects of the ERP system, many improvement and optimization schemes have been proposed, and improve the feasibility and practicality of the plan in some extent, but it is fewer studies considering the whole planning system optimization in the multiple performance management objectives and achieving better application performance. The purpose of this paper is to propose a multi-objective production planning optimization model Based on the point of view of the integration of production planning and control, in order to achieve optimization and control of enterprise manufacturing management. Design/methodology/approach: On the analysis of ERP planning system’s defects and disadvantages, and related research and literature, a multi-objective production planning optimization model is proposed, in addition to net demand and capacity, multiple performance management objectives, such as on-time delivery, production balance, inventory, overtime production, are considered incorporating into the examination scope of the model, so that the manufacturing process could be management and controlled Optimally between multiple objectives. The validity and practicability of the model will be verified by the instance in the last part of the paper. Findings: The main finding is that production planning management of manufacturing enterprise considers not only the capacity and materials, but also a variety of performance management objectives in the production process, and building a multi-objective optimization model can effectively optimize the management and control of enterprise manufacturing. Practical implications: By setting cost parameters for all kinds of production objectives, mangers can maintain the balances among multiple objectives, and achieve the optimized management and control in the manufacturing process. Originality/value: This paper propose a multi-objective production planning optimization model, which can consider multiple performance management objectives of manufacturing process, and can achieve effective planning and control of production process of enterprise.
Bookmark/Search this post with
FULL TEXT (PDF): 
PDF icon 771-5178-1-pb.pdf
  • 4
815-830
  • English

REFERENCES

References: 

Chen, Z. (2001). Flexible decision of MPS in MRPⅡ system. Journal of Systems Engineering,
06, 465-470.
Cui, N., Liu, Y., & Yan, S. (2003). Improvement of lead time in MRP. Journal of Huazhong
University of Science and Technology, 5, 95-97.
Hao, G., & Wu, G. (2005). Research on MRP of dynamic lot size & lead-time based on daily
output. The computer integrated the manufacturing system, 09, 1267-1271.
Hao, Y. (2008). Research on the Production Scheduling Optimization Methods for Tobacco
Enterprises. Huazhong University of Science and Technology.
Huang, W., Cai, L., Hu, Y., Wang, X., & Ling L., (2009). Process planning optimization based on
genetic algorithm and topological sort algorithm for digraph. Computer Integrated
Manufacturing Systems, 9, 1770-1778.
Jia, W., Liao, X., Wang, M., & Shen, Z. (2002). Aggregate Production Planning with Multi-
Objectives in Uncertain Environment. Systems engineering, 05, 50-54.
Jodlbauer, H., & Reitner, S. (2012). Material and capacity requirements planning with dynamic
lead times. International Journal of Production Research , 50(16), 4477-4492.
http://dx.doi.org/10.1080/00207543.2011.603707
Kanet, J.J., & Stlein, M. (2010). Integrating production planning and control: towards a simple
model for Capacitated ERP. Production Planning & Control, 21(3), 286-300.
http://dx.doi.org/10.1080/09537280903363209
Kopanos, G.M., Puigjaner, L. & Georgiadis, M.C. (2010). Optimal Production Scheduling and
Lot-Sizing in Dairy Plants: The Yogurt Production Line. Industrial and Engineering Chemistry
Research, 49(2), 710-718. http://dx.doi.org/10.1021/ie901013k
Kopanos, G.M., Puigjaner, L. & Georgiadis, M.C. (2011). Production Scheduling in Multiproduct
Multistage Semicontinuous Food Processes. Industrial & Engineering Chemistry Research,
50(10), 6316-6324. http://dx.doi.org/10.1021/ie2001617
Lan, B. (2004). Enterprise Resource Optimization and Optimization Model. Computer
Integrated Manufacturing Systems, 3, 241-250.Liu, W., Wang, T., Zhou, M., & Rao, J. (2010). Generation and optimization of process routing
based on ant colony algorithm. Computer Integrated Manufacturing Systems, 7, 1378-1382.
Liu, B., Zhou, Y., & Liu, B. (2001). MRPII Principles and Implementation. Tianjin: Tianjin
University Press.
Pan, E., Liao, W., & Xi, L. (2010). Single-machine-based production scheduling model
integrated preventive maintenance planning. The International Journal of Advanced
Manufacturing Technology, 50(1-4), 365-375. http://dx.doi.org/10.1007/s00170-009-2514-9
Shu, C., & Wang, D. (2010). An Improved Genetic Algorithm for Partial Flexible Job-Shop
Scheduling. Industrial Engineering, 6, 61-65.
Smith, N.R., Robles, J.L., & Cárdenas-Barrón L.E. (2009). Optimal Pricing and Production
Master Planning in a Multiperiod Horizon Considering Capacity and Inventory Constraints.
Mathematical Problems in Engineering: Theory, Methods and Applications, 2009, 1-15.
Wang, C., Liu, X., Lin, Y., & Zhao, G. (2012). Production scheduling model based on the finite
capacity of discrete manufacturers. Science-technology and management, 05, 99-102.
Wang, D., Zhang, H., & Lu, J. (2007). Research and Application of APS Algorithm based on the
Bottleneck Restriction. Mechatronics, 6, 35-39.
Witkowski, T., Antchak, A., & Antchak, P. (2004). The CSANN Neural Model Modification for
Production Scheduling. Journal of Automation and Information Sciences, 36(9-10), a44-a50.
http://dx.doi.org/10.1615/JAutomatInfScien.v36.i10.50
Xiao, Y., Zhang, R., & Chang, W. (2010). Enterprise planning model based on bill of
manufacturing. System Engineering Theory and Practice, 2, 227-235.
Zhang, Q., & Wang, J. (2008). The Research on Integrated Production Planning and Controlling
Method of Customer-centered Production. Journal of Industrial Engineering and Engineering
Management, 22(1), 151-154.
Zhuang, Y., & He, J. (2002). An Improved Capacity Requirements Planning Method for
MRPⅡ/ERP Systems. Management Science of China, 5, 62-68.

Thank you for copying data from http://www.arastirmax.com