Lean system design for engineer-to-order manufacturing

被引:3
|
作者
Zhou J. [1 ]
Zhang Q. [1 ]
Wang X. [1 ]
Xiao H. [1 ]
机构
[1] College of Mechanical Engineering, Tongji University, Shanghai
来源
Journal of Shanghai Jiaotong University (Science) | 2016年 / 21卷 / 6期
关键词
design of experiment (DOE); engineer-to-order (ETO); implementation path; improved value stream mapping (IVSM); simulation optimization;
D O I
10.1007/s12204-016-1784-2
中图分类号
学科分类号
摘要
A five-step method framework is proposed by combing improved value stream mapping with simulation and design of experiment (DOE) to design the lean system for engineer-to-order (ETO) manufacturing, and lean practice implementation path is decided. Meanwhile, a real company case like HAVC is taken to display the application of the framework. The results indicate that compared to supermarket Kanban, constant work in process (Conwip) has the broader applicability in ETO manufacturing and the critical business process, like purchasing of key parts, and has more significant effects on value stream performance. Therefore, it should have priority in lean practice implementation. © 2016, Shanghai Jiaotong University and Springer-Verlag Berlin Heidelberg.
引用
收藏
页码:702 / 712
页数:10
相关论文
共 50 条
  • [1] Lean System Design for Engineer-to-Order Manufacturing
    周健
    张勤
    王小虎
    肖浩锋
    [J]. Journal of Shanghai Jiaotong University(Science), 2016, 21 (06) : 702 - 712
  • [2] Lean manufacturing tool in engineer-to-order environment: Project cost deployment
    Braglia, Marcello
    Frosolini, Marco
    Gallo, Mose
    Marrazzini, Leonardo
    [J]. INTERNATIONAL JOURNAL OF PRODUCTION RESEARCH, 2019, 57 (06) : 1825 - 1839
  • [3] Cost Estimation in Engineer-to-Order Manufacturing
    Hooshmand, Yousef
    Koehler, Peter
    Korff-Krumm, Andrea
    [J]. OPEN ENGINEERING, 2016, 6 (01): : 22 - 34
  • [4] Implementing Lean in Engineer-to-Order Industry: A Case Study
    Kjersem, Kristina
    Halse, Lise Lillebrygfjeld
    Kiekebos, Peter
    Emblemsvag, Jan
    [J]. ADVANCES IN PRODUCTION MANAGEMENT SYSTEMS: INNOVATIVE PRODUCTION MANAGEMENT TOWARDS SUSTAINABLE GROWTH (AMPS 2015), PT II, 2015, 460 : 248 - 255
  • [5] Digitalized Manufacturing Logistics in Engineer-to-Order Operations
    Strandhagen, Jo Wessel
    Buer, Sven-Vegard
    Semini, Marco
    Alfnes, Erlend
    [J]. ADVANCES IN PRODUCTION MANAGEMENT SYSTEMS: PRODUCTION MANAGEMENT FOR THE FACTORY OF THE FUTURE, PT I, 2019, : 579 - 587
  • [6] Mass Customization Challenges of Engineer-to-Order Manufacturing
    Thomassen, Maria K.
    Alfnes, Erlend
    [J]. MANAGING COMPLEXITY, 2017, : 27 - 39
  • [7] Purchasing Strategies, Tactics, and Activities in Engineer-to-Order Manufacturing
    Shlopak, Mikhail
    Rod, Espen
    Junge, Gabriele Hofinger
    [J]. ADVANCES IN PRODUCTION MANAGEMENT SYSTEMS: PRODUCTION MANAGEMENT FOR THE FACTORY OF THE FUTURE, PT I, 2019, : 562 - 569
  • [8] A Concept for Project Manufacturing Planning and Control for Engineer-to-Order Companies
    Sriram, Pavan Kumar
    Alfnes, Erlend
    Arica, Emrah
    [J]. ADVANCES IN PRODUCTION MANAGEMENT SYSTEMS: COMPETITIVE MANUFACTURING FOR INNOVATIVE PRODUCTS AND SERVICES, AMPS 2012, PT II, 2013, 398 : 699 - 706
  • [9] A New Set of Principles for Pursuing the Lean Ideal in Engineer-to-Order Manufacturers
    Powell, Daryl
    Strandhagen, Jan Ola
    Tommelein, Iris
    Ballard, Glenn
    Rossi, Monica
    [J]. VARIETY MANAGEMENT IN MANUFACTURING: PROCEEDINGS OF THE 47TH CIRP CONFERENCE ON MANUFACTURING SYSTEMS, 2014, 17 : 571 - 576
  • [10] Requirements for Sales and Operations Planning in an Engineer-to-Order Manufacturing Environment
    Bhalla, Swapnil
    Alfnes, Erlend
    Hvolby, Hans-Henrik
    Oluyisola, Olumide Emmanuel
    [J]. ADVANCES IN PRODUCTION MANAGEMENT SYSTEMS: ARTIFICIAL INTELLIGENCE FOR SUSTAINABLE AND RESILIENT PRODUCTION SYSTEMS, APMS 2021, PT IV, 2021, 633 : 371 - 380
12345