技能组合可选择的赛汝生产系统多能工配置问题被引量：4

Skill configuration of Seru production systems considering selectable skill set

导出

摘要作为以人为中心的赛汝生产系统,如何合理地配置多能工是系统构建的主要问题.针对赛汝生产系统构建的基本问题,考虑工人技能组合的可选择性和工人技能水平的差异性,以最小化最大完工时间和最小化工人工作时间差异为目标,建立赛汝生产系统多能工配置的多目标优化模型.针对模型和解空间的特征,开发并采用基于NSGA-II的多目标优化算法进行求解.通过数值实验验证模型和算法的准确性和有效性,并分析工人标准工序数与工人效率系数的差异对系统最大完工时间、工人工作时间差异、工人人均掌握技能数和构建单元数量的影响. Assignment and configuration of multi-skilled worker is a key problem for Seru production systems formation,which is a human-centered production system.Considering the selectivity of worker skill sets and the diversity of workers’proficiency level,this paper develops a multi-objective optimization model of the multi-skilled worker configuration problem for the Seru production system to minimize the make span and imbalance in labor hours.The algorithm based on NSGA-II is developed to solve the mathematical model considering the NP-hard and multi-objective optimization nature of the problem.At the same time,numerical experiments are conducted to evaluate the impact of varying upper bound task number and proficiency level on make span,workload imbalance,average skill number and average Seru number.

作者王晔任玉红唐加福 WANG Ye;REN Yu-hong;TANG Jia-fu(College of Marketing and Logistic Management,Nanjing University of Finance and Economics,Nanjing 210046,China;College of Management Science and Engineering,Dongbei University of Finance and Economics,Dalian 116025,China)

机构地区南京财经大学营销与物流管理学院东北财经大学管理科学与工程学院

出处《控制与决策》 EI CSCD 北大核心 2022年第3期737-745,共9页 Control and Decision

基金国家自然科学基金项目(71901119)。

关键词赛汝(Seru)生产系统多能工配置技能可选择多目标模型 NSGA-II Seru production systems multi-skilled worker configuration selectable skill set multi-objective model NSGA-II

分类号 N945.12 [自然科学总论—系统科学]

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参考文献7

1白朝阳,王浩,和莉.考虑批量分割的单元装配系统工作量平衡联合决策模型[J].控制与决策,2021,36(10):2517-2527. 被引量：5
2刘晨光,廉洁,李文娟,殷勇.日本式单元化生产——生产方式在日本的最新发展形态[J].管理评论,2010,22(5):93-103. 被引量：36
3任玉红,唐加福,肖争喜,何行龙.LINE-SERU转化的评价分析——以某医疗制造企业实施SERU为例[J].系统工程理论与实践,2021,41(2):442-454. 被引量：7
4王晔,唐加福.考虑员工合作关系的单元装配系统构建方法[J].控制与决策,2020,35(2):453-460. 被引量：4
5Ye Wang,Jiafu Tang.COST AND SERVICE-LEVEL-BASED MODEL FOR A SERU PRODUCTION SYSTEM FORMATION PROBLEM WITH UNCERTAIN DEMAND[J].Journal of Systems Science and Systems Engineering,2018,27(4):519-537. 被引量：15
6王晔,唐加福,赵林度.考虑需求波动的单元装配系统构建问题的多目标模型[J].中国管理科学,2018,26(4):57-66. 被引量：4
7杨喜娟,黎锁平,彭铎,蔺莹.考虑缓冲区故障的多产品生产系统的性能分析[J].控制与决策,2019,34(4):699-708. 被引量：4

二级参考文献83

1王晔,唐加福.考虑员工合作关系的单元装配系统构建方法[J].控制与决策,2020,35(2):453-460. 被引量：4
2D&M Nikkei'Mechanical. The Challenge of Canon-Part 3[J]. D&M Nikkei Mechanical, 2003, 588(September) :70-73. 被引量：1
3Weekly Toyo Keizen. Not only Toyota-Miraculous Canon Manufacturing System (in Japanese)[N]. Weekly Toyo Keizen,2003-12-27. 被引量：1
4Hisashi Sakamaki. The Change of Consciousness and Company by Cellular Manufacturing in Canon Way (in Japanese)[M]. Tokyo: JMAM, 2006. 被引量：1
5Hiroshi Iwamuro. Cell Manufacturing System (in Japanese)[M]. Tokyo: Nikkan Kogyo Shimbun, 2002. 被引量：1
6Hisashi Noguchi. Production Involution in Japan (in Japanese)[M]. Tokyo: Nikkan Kogyo Shimbun, 2003. 被引量：1
7Tomofumi Kimura, Masaru Yoshita. Cellular Manufacturing Runs into Trouble When Nothing is Done (in Japanese)[J]. Nikkei Monozukuri, 2004, 7:38-61. 被引量：1
8Hirokazu Kono. The Aim of the Special Issue on Seru Manufacturing (in Japanese)[J]. IE Review, 2004, 45:4-5. 被引量：1
9Noboru Takeuchi. Manufacturing Methods Illustrated: Cell Production System (in Japanese)[M]. Tokyo: JMAM, 2006. 被引量：1
10Shunji Yagyu. Synchronized Cellular Manufacturing System (in Japanese)[M]. Tokyo: Nikkan Kogyo Shimbunsha, 2003. 被引量：1