Design of manufacturing systems for product variety using cluster and statistical analysis

使用聚类和统计分析设计产品多样性的制造系统

• 批准号: RGPIN-2017-04858
• 负责人: Li, Simon
• 金额: $ 1.53万
• 依托单位: University of Calgary
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2018
• 资助国家: 加拿大
• 起止时间: 2018-01-01 至 2019-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=657506
• 关键词: Design; manufacturing; systems; product; variety

The scope of this research program is the optimization of manufacturing systems to support product variety and sustainability. To stay competitive in the market, original manufacturers (OM) need to satisfy customers with more product options and meet the environmental regulations and societal expectations. In this context, while formal optimization models have been widely used in system design, they often face the challenges of model and computational complexity (e.g., high number of integer variables and convergence issues). Instead of employing optimization methods, this research will investigate and develop clustering and statistical techniques for the design of manufacturing systems. The novelty is to develop a bottom-up approach to address complex structural decisions systematically with the target of better performance on solution convergence and computing time, as well as comparable optimality performance with metaheuristic algorithms.***The proposed research program is organized into two themes. The first theme is the development of clustering algorithms for cellular manufacturing systems (CMS). One research goal is to improve the capability of hierarchical clustering (HC) to search for optimal structural decisions in the design of CMS. The methodological approach includes statistical analysis of coupling distributions and reversible HC to avoid the lock-in of premature groups. Also, we will focus on the issues of robustness and modularity. Regarding robustness, the clustering approach is applied to concatenate relevant changes and deploy resources purposely to reduce unnecessary propagation effects. Regarding modularity, the research idea is to match the modularity of product architecture and manufacturing systems using clustering concepts to enhance system flexibility for market changes.***The second theme is the design of a closed-loop manufacturing system for sustainability. The general goal is to support OM to participate in the product's end-of-life management. Three aspects are considered: assembly, disassembly, and reassembly. While “assembly” is referred to the forward production, “disassembly” and “reassembly” are referred to the backward loop that considers the end-of-life options and product recovery. In this application, the clustering approach is used to configure this network system to improve sustainability measures.***From research to practice, we will make the developed methodology and knowledge accessible to the Canadian manufacturing sector in a form of practical know-how (e.g., how to minimize change propagation and design robust systems). For component suppliers, they can learn how to enhance their manufacturing flexibility for more contract opportunities. For OM, they can promote sustainability by designing a close-loop network that manages the flow of materials after their first usage.

这项研究计划的范围是优化制造系统，以支持产品的多样性和可持续性。为了在市场上保持竞争力，原始制造商(OM)需要满足客户更多的产品选择，满足环境法规和社会期望。在这种背景下，虽然形式优化模型在系统设计中得到了广泛的应用，但它们经常面临模型和计算复杂性的挑战(例如，整数变量的数量较多和收敛问题)。这项研究将不使用最优化方法，而是研究和开发用于制造系统设计的集群和统计技术。其新奇之处在于开发了一种自下而上的方法来系统地处理复杂的结构决策，目标是在解的收敛和计算时间方面获得更好的性能，以及与元启发式算法相当的最优性能。*拟议的研究计划分为两个主题。第一个主题是用于单元制造系统(CMS)的集群算法的发展。其中一个研究目标是提高层次聚类(HC)在CMS设计中搜索最优结构决策的能力。方法论方法包括耦合分布的统计分析和可逆HC，以避免早熟群体的锁定。此外，我们还将重点讨论健壮性和模块化问题。在健壮性方面，采用分簇的方法连接相关变化并有目的地部署资源，以减少不必要的传播影响。对于模块化，研究思路是利用集群概念将产品体系结构的模块化与制造系统的模块化相匹配，以增强系统对市场变化的灵活性。*第二个主题是设计可持续发展的闭环制造系统。总体目标是支持OM参与产品的生命周期结束管理。考虑了三个方面：组装、拆卸和重新组装。“组装”指的是前向生产，而“拆卸”和“重新组装”指的是考虑报废选择和产品回收的反向循环。在这一应用中，我们使用集群方法来配置这个网络系统，以改进可持续发展措施。*从研究到实践，我们将以实用技术的形式向加拿大制造业提供开发的方法和知识(例如，如何最大限度地减少变化传播和设计强大的系统)。对于零部件供应商来说，他们可以学习如何提高制造灵活性，以获得更多合同机会。对于OM，他们可以通过设计一个闭环网络来促进可持续发展，该网络在第一次使用后管理材料的流动。