Integrated optimization of production planning and scheduling for fixed- position assembly workshop with rework

被引：0

作者：

Jiang N.-Y. ^{[1
,2
,3
]}

Yan H.-S. ^{[1
,2
]}

机构：

[1] School of Automation, Southeast University, Nanjing

[2] The MOE Key Laboratory of Measurement and Control of Complex Systems of Engineering, Southeast University, Nanjing

[3] Department of Economics and Management, Nanjing Technology University, Nanjing

来源：

Jiang, Nan-Yun (jiangnanyun@163.com) | 2017年 / Northeast University卷 / 32期

关键词：

Fixed-position; Integrated optimization of production planning and scheduling; Memetic algorithm; Rework;

D O I：

10.13195/j.kzyjc.2016.1151

中图分类号：

学科分类号：

摘要：

Considering that the rework of nonconforming product leads to the unfeasible production planning and scheduling in the fixed-position assembly workshop, an integrated optimization method for the production planning and scheduling based on delaying rework is proposed. Firstly, rough-cut production planning based on delaying rework is made. After this plan was delivered and performed, the nonconforming products of every cycle are put into the buffer. Correspondingly, at the beginning of the next cycle, the production plan is adjusted and its corresponding schedule is optimized. Both of them are identified whether to satisfy the requirement of load rate of assembly teams. Alternate iteration of the production plan and schedule is proceeded until the optimization and balance are achieved simultaneously. Finally, the examples are given to illustrate the feasibitily and effectiveness. © 2017, Editorial Office of Control and Decision. All right reserved.

引用

页码：2045 / 2055

页数：10

共 18 条

[1] Qin W., Huang G.Q., A two-level genetic algorithm for scheduling in assembly islands with fixed-position layouts, J of Systems Science and Systems Engineering, 19, 2, pp. 150-160, (2010)
[2] Akyol D.E., Bayhan M., A review on evolution of production scheduling with neural networks, Computers & Industrial Engineering, 53, 1, pp. 95-122, (2007)
[3] Yan H.S., Xia Q.F., Zhu M.R., Et al., Approaches to simultaneous production planning and scheduling in automobile assembly workshops, Acta Automatica Sinica, 28, 6, pp. 911-918, (2002)
[4] Du H., Lou P.H., Ye W.H., Application of hybrid particle swarm optimization in resource constrained multi-project scheduling, J of the Chinese Society of Mechanical Engineers, 35, 5, pp. 371-379, (2014)
[5] Xie Z.Q., Li Z.M., Hao S.Z., Et al., Study on complex product scheduling problem with no-wait constraint between operations, Acta Automatica Sinica, 35, 7, pp. 983-989, (2009)
[6] Liu M.Z., Zhang X., Liu C.H., Et al., Optimization method of remanufacturing reprocessing shop scheduling under uncertain conditions, J of Mechanical Engineering, 50, 10, pp. 206-212, (2014)
[7] Wang B., Yang X.F., Li Q.Y., Bad-scenario set based risk-resisting robust scheduling model, Acta Automatica Sinica, 38, 2, pp. 270-278, (2012)
[8] Wang M.C., Ling G., Liu X., Et al., Stochastic expected value model about parallel schedule considering outsourcing, J of Systems Engineering, 26, 1, pp. 91-97, (2011)
[9] Gupta A., Maranas C.D., McDonald N.C.M., Mid-term supply chain planning under demand uncertainty: customer demand satisfaction and inventory management, Computers & Chemical Engineering, 24, 12, pp. 2613-2621, (2000)
[10] Guo Y.D., Wang Q., Huang M., Rescheduling with release time to minimize sum of waiting time considering waiting constraint of original loads, Acta Automatica Sinica, 39, 12, pp. 2100-2110, (2013)

← 1 2 →