• 论文 •    

面向e-制造的工艺规划与调度集成系统研究

姜汉斌,江平宇,张映锋   

  1. 西安交通大学 机械制造系统工程国家重点实验室,陕西  西安  710049
  • 收稿日期:2004-10-18 修回日期:2005-01-05 出版日期:2006-01-15 发布日期:2006-01-25
  • 基金资助:
    教育部优秀青年教师基金(20011886);国家863/CIMS主题资助项目(2001AA415230)。

Research on process planning & scheduling integrated system oriented to e-manufacturing

JIANG Han-bin, JIANG Ping-yu, ZHANG Ying-feng   

  1. National Key Lab. of Manufacturing System Eng., Xi’an Jiaotong Univ., Xian  710049, China
  • Received:2004-10-18 Revised:2005-01-05 Online:2006-01-15 Published:2006-01-25
  • Supported by:
    Project supported by the National High-Tech. R&D Program for CIMS, China(No.2001AA415230) and the Excellent Young Teachers Program of MoE, China(No. 20011886).

摘要: 为了适应e-制造环境对企业生产调度提出的新要求,提出了一种工艺规划与生产调度动态集成的系统模型。在该模型中,首先采用模糊评价方法根据不同零件的完成提前期、设备利用率、其他制造资源利用率等因素进行了动态工艺路线决策,得到适合目前生产情况的工艺方案,然后根据设备的负荷系数进行制造资源决策,把工序任务分配给具体的设备。为了解决被分配到e-制造单元的工序任务调度问题,根据零件在设备之间转移时间的条件,提出了一种e-制造单元调度问题的蚁群算法模型,并根据自适应调度原理,给出生产情况变动时动态调度策略,保证了调度结果的可行性。

关键词: e-制造, 模糊评价, 动态工艺路线决策, 蚁群算法, 动态调度

Abstract: To meet the new requirements of e--manufacturing for enterprises production planning & scheduling, a system model was proposed to dynamically integrate process planning and production planning & scheduling. In the model, a fuzzy evaluation model was firstly introduced to make dynamic process planning decisions according to lead time of parts, utilization rate of machines and other manufacturing resources so as to obtain the most suitable process planning for the current production conditions. Then, manufacturing resources decisions were made according to their load coefficients and all process-grade tasks were assigned to appropriate machines. In order to resolve the problem of process-grade tasks scheduling for e--manufacturing cell, taking the parts transfer time among machines into consideration, a new scheduling model based on ant colony algorithm was brought forward. To ensure availability of the scheduling result, dynamic scheduling strategies were finally provided according to the self-adaptive scheduling principles.

Key words: e-manufacturing, fuzzy evaluation, dynamic process planning decision, ant colony algorithm, dynamic scheduling

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