| Summary: | 碩士 === 國立勤益科技大學 === 研發科技與資訊管理研究所 === 97 === Product Lifecycle Management (PLM) is an important management perspective and method of current manufacturing industries. Using modular configuration to manage all the activities of company's products and the utilization of enterprise intelligence capital across the product lifecycle is the most important strategy to build up the PLM system. Product configuration management is the core of PLM system. Applying the modular product configuration in all stages of product lifecycle enables the reusing of product information effectively, and therefore achieves the strategic target of shortening the lead time from product development to delivery.
The objective of this study is to build a product configuration module which combines the product structure and all the product structure information including part number, drawing, BOM, engineering standard, quality record and so on. Based on the modular product configuration information, the linkage across all the stages of product life cycle, such as marketing, product design, engineering standard, production planning, supply chain management (SCM), mass production, inspection and customer service is applied. In order to describe the building process and performance of this product configuration module, the PLM system of fiber interconnection product is constructed.
The structure of this methodology is divided into three phases, which are process analysis, product configuration rules and applications to PLM. At process analysis phase, the VSM and IDEF0 are used to verify the process, input, and output. At the phase of product configuration rules, the rule based knowledge system and rule based design are rules for modular product structure and constructing the corresponded configuration. As for the applications to PLM, the relation attribution is built up by IDEF1X.
Finally, the PLM system of the fiber interconnection products by this logic is demonstrated. The result of the PLM system implementation illustrated that the configuration of this study is capable of (1) building a viable PLM system, (2) effectively reducing the lead time from marketing, product design to engineering, (3) enhancing the valuable timing rate of the product configuration process. The above performances reveal that the response speed and competitiveness are enhanced when the enterprises are to be in face of the requirement of customization.
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