| It’s of important significance for automotive suppliers to implement the ISO/TS16949and in the information age, the implementation of TS16949need more support frominformation technology. There is little research on how to combine TS16949and productlife-cycle process, which makes the development of TS16949quality management difficult.This thesis aims to provide strong theoretical support for developing support TS16949quality control product lifecycle management system. From this point of view, this paperhas done the following work.Firstly, the TS16949technical specification is studied, which is the theoretical basis ofthis thesis. As for this, the composition and characteristics of TS16949is described and thefive core tools of TS16949are studied. From the analysis of the relationship between thefive core tools, we form a system implementation with the APQP task be the main line andthe other four be the aid.Secondly, from the point of Product Life Cycle, the thesis adds the project preparationstage into the APQP, which was traditionally classified to five stages. The main tasks ofthese six stages, as well as the input and output of each task, are studied. The correspondingdata flow diagram of each stage is provided. The types of documents are classified intodesign type, quality system type, verification type customer input type and other types.Thirdly, the processes of the product life cycle and the main tasks of each process arestudied. The common product process and the TS16949process are distinguished andcombined. The tasks in each process during the product life cycle, as well as the input andoutput of each task, are defined.Lastly, based on the previous work, the need that supports the TS16949PLM system isanalyzed and the structure of the TS16949quality control subsystem is designed. Then theTS16949quality control PLM system framework with the TS16949subsystem be the coreand four architecture levels is designed. |
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