面向团队的产品开发项目的完整精益系统设计

IF 3.8 2区工程技术 Q2 ENGINEERING, INDUSTRIAL

International Journal of Lean Six Sigma Pub Date : 2024-07-10 DOI:10.1108/ijlss-07-2023-0124

M. B. Durmusoglu, C. Aglan

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引用次数: 0

摘要

目的流程时间和需求的内在可变性是阻碍精益理念在多项目产品开发（PD）环境中有效应用的因素。考虑到这种可变性，我们开发了一种混合推拉式项目控制系统，并进行了价值流成本计算（VSC）分析，以反映项目提前期、产能和项目成本之间的关系。设计/方法/途径在通过聚类形成的基于团队的结构中，开发了用于跨职能团队内部计划任务的推式控制技术和用于跨职能团队之间计划任务的拉式控制技术。最后一步是通过 VSC 对建议的结构进行评估，并指出长期的节约，特别是在释放能力方面。为了验证所提出的方法，考虑了一家办公家具制造公司的 PD 部门，通过仿真实验观察了混合系统的性能，并根据仿真结果通过 VSC 对精益系统进行了评估。仿真实验结果表明，在不同的项目间周期时间或短期项目周期时间、团队内部调度规则和可变性水平设置下，所提出的推/拉混合项目控制机制性能优越。研究的局限性/意义虽然已经进行了大量的模拟实验来量化项目控制结构的效果，并报告了在前置时间和成本方面的积极结果，但所提出的设计结构尚未在所有现有的项目开发环境中进行测试。

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A complete lean system design for team-oriented product development projects

Purpose The inherent variability on process times and demand are the factors that prevent the efficient application of lean philosophy in multi-project product development (PD) environments. Considering this variability, a hybrid push–pull project control system is developed, and value stream costing (VSC) analysis is performed to reflect the relation between project lead time, capacity and project cost. The assessment of the push/pull project control on lead time improvement and long-term savings on capacity have been aimed with the proposed complete design structure. Design/methodology/approach In a team-based structure, formed through clustering, push control techniques for planning tasks within cross-functional teams and pull control techniques for planning tasks between cross-functional teams are developed. The final step evaluates the proposed structure through VSC and long-term savings have been pointed out, especially in terms of freed-up capacity. For the validation of the proposed methodology, an office furniture manufacturing firm’s PD department has been considered and the performance of the hybrid system has been observed through simulation experiments and based on the simulation results, the lean system is evaluated by VSC. Findings The results of simulation experiments show a superior performance of the proposed hybrid push/pull project control mechanism under different settings of cycle time between projects or shortly project cycle time, dispatching rules within teams and variability levels. The results of the Box-Score (tool to apply VSC) indicate increased capacity in the long term to add extra projects during the planning period with the same project lead time and without additional cost. Research limitations/implications Although extensive simulation experiments have been performed to quantify the effect of project control structure and positive results have been reported on lead time and cost, the proposed design structure has not been tested in all existing PD environments. Originality/value To the best of authors’ knowledge, the quantification of the effect of hybrid project control with VSC is the first attempt to be applied in lean PD projects.

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来源期刊

International Journal of Lean Six Sigma Engineering-Industrial and Manufacturing Engineering

CiteScore

8.90

自引率

15.00%

发文量

期刊介绍： Launched in 2010, International Journal of Lean Six Sigma publishes original, empirical and review papers, case studies and theoretical frameworks or models related to Lean and Six Sigma methodologies. High quality submissions are sought from academics, researchers, practitioners and leading management consultants from around the world. Research, case studies and examples can be cited from manufacturing, service and public sectors. This includes manufacturing, health, financial services, local government, education, professional services, IT Services, transport, etc.