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Intelligent Optimization-Based Production Planning and Simulation Analysis for Steelmaking and Continuous Casting Process 被引量:14

Intelligent Optimization-Based Production Planning and Simulation Analysis for Steelmaking and Continuous Casting Process
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摘要 Aiming at the limitations of the traditional mathematical model for production planning, a novel optimization model is proposed to improve the efficiency and performance for production planning in steelmaking and continuous casting (SCC) process. The optimization model combined with parallel-backward inferring algorithm and genetic algorithm is described. To analyze and evaluate the production plans, a simulation model based on cellular automata is presented. And then, the integrated system including the production plan optimization model and the simulation model is introduced to evaluate and adjust the production plan on-line. The test with production data in a steel plant shows that the optimization model demonstrates ability to deal with time uncertainty in production planning and to set up a conflict-free production plan, and the integrated system provides a useful tool for dynamically drawing and adjusting a production plan on-line. The average staying time of the production plan is about 5% shorter than that in a practical process. Aiming at the limitations of the traditional mathematical model for production planning, a novel optimization model is proposed to improve the efficiency and performance for production planning in steelmaking and continuous casting (SCC) process. The optimization model combined with parallel-backward inferring algorithm and genetic algorithm is described. To analyze and evaluate the production plans, a simulation model based on cellular automata is presented. And then, the integrated system including the production plan optimization model and the simulation model is introduced to evaluate and adjust the production plan on-line. The test with production data in a steel plant shows that the optimization model demonstrates ability to deal with time uncertainty in production planning and to set up a conflict-free production plan, and the integrated system provides a useful tool for dynamically drawing and adjusting a production plan on-line. The average staying time of the production plan is about 5% shorter than that in a practical process.
出处 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2010年第9期19-24,30,共7页
基金 Item Sponsored by National High-Tech Research and Development Plan of China(2007AA04Z161)
关键词 steelmaking-continuous casting production plan optimization genetic algorithm cellular automata steelmaking-continuous casting production plan optimization genetic algorithm cellular automata
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参考文献10

  • 1Tang L, Liu J, Rong A, et al. A Review of Planning and Scheduling Systems and Methods for Integrated Steel Production [J]. European Journal of Operational Research, 2001, 133(1): 1.
  • 2Atighehchian A, Bijari M, Tarkesh H. A Novel Hybrid Algorithm for Scheduling Steel-Making Continuous Casting Production [J]. Computers and Operations Research, 2009, 36(8): 2450.
  • 3Tang L, Liu J, Rong A, et al. A Mathematical Programming Model for Scheduling Steelmaking-Continuous Casting Production [J]. European Journal of Operational Research, 2000, 120 (2), 423.
  • 4Tang L, Luh P B, Liu J, et al. Steel-Making Process Scheduling Using Lagrangian Relaxation[J]. International Journal of Production Research, 2002, 40(1): 55.
  • 5Bellabdaoui A, Teghem J. A Mixed-integer Linear Programming Model for the Continuous Casting Planning [J]. International Journal of Production Economics, 2006, 104(2) : 260.
  • 6YANG Jing-ming CHE Hai-jun DOU Fu-ping ZHOU Tao.Genetic Algorithm-Based Optimization Used in Rolling Schedule[J].Journal of Iron and Steel Research International,2008,15(2):18-22. 被引量:14
  • 7Ferretti I, Zanoni S, Zavanella L. Production-Inventory Scheduling Using Ant System Metaheuristic [J]. International Journal of Production Economics, 2006, 104(2) : 317.
  • 8Mohanty P P. An Agent-Oriented Approach to Resolve the Production Planning Complexities for a Modern Steel Manufacturing System [J]. Int J Adv Manuf Technol, 2004, 24(3-4): 199.
  • 9Tang L, Wang G. Decision Support System for the Batehing Problems of Steelmaking and Continuous-Casting Production [J]. Omega, 2008, 36(6): 976.
  • 10郑忠,何腊梅,高小强.炼钢生产物流系统仿真的细胞自动机模型[J].钢铁,2004,39(11):75-78. 被引量:17

二级参考文献9

  • 1HongshuangDI,JianzhongXU,DianyaoGONG,XianghuaLIU,GuodongWANG,XiaomingHE,LiyingBA.Effect of Load Distribution on Strip Crown in Hot Strip Rolling[J].Journal of Materials Science & Technology,2004,20(3):330-334. 被引量:1
  • 2JI Zhenping, CHEN Wenming, YU Ge. Hierarchy Coloured Petri Net (HCPN) and Application in Material Flow System simulation Modeling for Steel Making and Continuous Casting Production of Baosteel.METALLURGICAL INDUSTRY AUTOMATION,2002,(2):6~9.(嵇振平,陈文明
  • 3Zuberek W M. Timed Petri-nets in Modeling and Analysis of Simple Schedules for Manufacturing Cells.Computers and Mathematics with Applications, 1999,37(11-12): 191-206.
  • 4Wolfram S. Computation Theory of Cellular Automata, Communications in Mathematical Physics. 1984, 96:15-57.
  • 5ZHENG Zhong, GAO Xiaoqiang, SHI Wanyuan. Lattice Gas Automata Modeling of Fluid Flow Through Porous Media. JOURNAL OF CHEMICAL INDUSTRY AND ENGINEERING(CHINA), 2001,52 (5): 406-410.(郑忠,高小强,石万元.多孔介质中流体流动
  • 6TAN Yunliang, ZHOU Hui, WANG Yongjia, et al.. Physical Cellular Automaton Theory for Simulating the Failure Process of Micro Heterogeneous Material. Acta Phys. Sin., 2001.50(4): 704-710. (谭云亮,周辉,王泳嘉,等.模拟细观
  • 7Nagel K, Schreckenberg M. Cellular Automaton Model for Free-way Traffic. Physics, 1992 (I-2):2221-2229.
  • 8Clarke K C, Gaydos L J, Hoopen S. A Self Modifying Cellular Automaton Model of Historical Urbanization in the San Francisco Bay Area . Environment and Planning B: Planning and Design, 1997,24: 247-261.
  • 9徐安军,田乃媛,吴晓东,陈怀彬,侯文义,张罗,伊炳希.宝钢炼钢厂生产调度模拟系统的初步探讨[J].钢铁,1999,34(3):27-30. 被引量:3

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