本文應用Petri Net資訊流結合Timed Petri Net理論、Stochastic Petri Net理論、加工工件之暫存區Petri Net (Petri Net Modeling of Buffers)與Petri Net之數據流計算整合資訊傳遞概念、計算數據及時間參數的生產與組裝預估時間之LED軌道燈創研流程設計與製造流程模型。本文在生產流程中設計加工工件之暫存區的模型，使生產線上避免原料及工件的阻塞，使整個生產流程更順暢且接近現實狀況，並在生產流程中加入製造排程及電腦輔助製程規劃功能，能使製造排程規劃更加順利、完整，更快速的規劃製程來降低時間的浪費，並且在生產流程中可能面臨到設備需要維修的狀況，設備進行維修時需要一段等待時間，所以加入設備維修所需等待維修完成的時間，讓使用者更了解整體設計及製造流程資訊之間的關係。本文又應用Petri Net理論與Petri Net數據流計算建立具有計算數據之流程模型，應用於LED軌道燈之結合修正式DANP之修正式TOPSIS方法，來進行評選出優先產品功能改善方案。本文亦將Petri Net資訊流相關理論、設計及製造流程規劃所需的相關知識，及結合修正式DANP之修正式TOPSIS等設計與製造相關理論知識與相關專利知識，輸入擴充至創研流程相關理論知識私有雲及LED軌道燈專利知識庫中，如此可增加LED軌道燈相關知識，讓使用者易於學習，使其能應用於創研流程架構模型。

The paper applies Petri Net information flow, and combines Timed Petri Net theory, Stochastic Petri Net theory, Petri Net Modeling of Buffers and Petri Net dataflow calculation and integration information transmission concept, calculation data and production of time parameters, innovative development process of design and manufacture of LED track light for estimation of assembling time, and manufacturing process model. The paper designs the modeling of buffers in the production process, attempting to prevent blockade of raw materials and workpieces, and make the entire production process smoother and closer to the real situation. Besides, the paper also adds to the production process with the functions of manufacturing scheduling and computer-aided manufacturing process planning in order to make the manufacturing schedule planned more smoothly, more completely. Faster planning of manufacturing process can reduce the waste of time. And in the production process, there might be a situation that there is equipment needed to be repaired, and the maintenance staff may need a period of time to carry out maintenance of equipment.
Therefore, the time spent on waiting for completion of equipment maintenance has to be added, letting users to understand more thoroughly the relationship between the overall design and the information of manufacturing flow. The paper also applies Petri Net theory and Petri Net dataflow calculation to establish a process flow model with calculation data to be applied to the modified TOPSIS method of the combined modified DANP of LED track light, so as to select a prioritized product function improvement program. The paper also enters and expands the theories relating to Petri Net information flow, the related knowledge required for planning the design and manufacturing processes, the related theoretical design and manufacturing knowledge, the modified TOPSIS of the combined modified DANP, and the related knowledge of patents, to the private cloud of theoretical knowledge relating to innovative development process, and to the knowledgebase of LED track light patents. In this way, the related LED track light knowledge can be increased, letting users learn the knowledge more easily, and allowing them to apply the knowledge to the innovative development process framework models.

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