摘要
模块化的可重构机床使可重构制造系统具备高效生产零件族的能力,对可重构制造系统的可重构能力和响应能力有着显著影响.为设计一个低成本、高可重构能力的可重构制造系统,提出了一种基于布谷鸟搜索算法的可重构机床多目标优选方法.首先,通过加工方向建立加工工序与可重构机床的映射关系.其次,考虑到制造系统生产零件族中不同零件时需进行重构,对可重构机床进行标识以清晰地表述可重构制造系统重构过程中可重构机床的变化.再次,从设备级和系统级两个层级分别量化了重构过程中的重构成本和重构指数,并基于此提出了两个目标函数:最小化可重构制造系统设计总成本和最大化总重构指数.最后,通过工程实例来验证该方法的有效性和高效性.案例结果表明:得到的设计成本最低的方案值为316.7,最佳的重构指数方案的值为27.4.此外,与解决此类问题常用的多目标优化算法NSGA-Ⅱ比较,多目标布谷鸟搜索(MOCS)算法能快速收敛并在200次迭代后取得全局的Pareto最优解,证明了提出的方法能够高效地筛选出更经济、更高重构指数的可重构机床选择方案.所提出的多目标优选方法可为后续的相关研究和生产实践提供指导.
The modular reconfigurable machine tool(RMT)enables the reconfigurable manufacturing system(RMS)to produce part families efficiently,which has a significant effect on the reconfigurability and responsiveness of the RMS.To design an RMS with a low cost and high reconfigurable capability,a multi-objective optimization method for the RMT based on the cuckoo search algorithm is proposed.First,the mapping relationship between operations and RMTs is established by machining direction.Second,considering that reconfiguration is required in a manufacturing system to produce the different parts in a part family,the RMT is identified to clearly describe the change in the RMT in the reconfiguration process of the RMS.Third,the reconfiguration cost and reconfiguration index in the reconfiguration process are quantified from the machine level and system level,respectively.Based on this analysis,two objective functions are proposed:minimizing the design cost of the RMS and maximizing the reconfiguration index.Finally,the effectiveness of the method is verified using an engineering example.The case results show that the lowest design cost is 316.7,while the best reconfiguration index is 27.4.In addition,compared with NSGA-Ⅱ,a commonly used multi-objective optimization algorithm,the multi-objective cuckoo search(MOCS)can quickly converge and obtain the global Pareto optimal solution after 200 iterations,and it is proved that the proposed method can quickly screen out the RMT selection solution with a more economical and higher reconfiguration index.The proposed multi-objective optimization method can provide guidance for subsequent research and production practice.
作者
王太勇
孙熙冉
田松龄
张雷
马明珠
Wang Taiyong;Sun Xiran;Tian Songling;Zhang Lei;Ma Mingzhu(School of Mechanical Engineering,Tianjin University,Tianjin 300350,China;Tianjin University Ren’ai College,Tianjin 301636,China;School of Control and Mechanical Engineering,Tianjin Chengjian University,Tianjin 300384,China;Tianjin TSNC Science and Technology Co.,Ltd.,Tianjin 300392,China;School of Mechanical Engineering,Tianjin University of Commerce,Tianjin 300134,China)
出处
《天津大学学报(自然科学与工程技术版)》
EI
CAS
CSCD
北大核心
2021年第9期881-889,共9页
Journal of Tianjin University:Science and Technology
基金
国家自然科学基金资助项目(51975402).
关键词
可重构机床
可重构制造系统
机器选择
多目标布谷鸟算法
reconfigurable machine tool
reconfigurable manufacturing system
machine selection
multi-objective cuckoo search(MOCS)algorithm
