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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/92313


    Title: SMT-ELS 機聯網垂直通訊應用情境設計與驗證;Implementation of Vertical Communication Application Scenario Design and Verification for SEMI SMT-ELS
    Authors: 曾能翊;Tseng, Neng-I
    Contributors: 通訊工程學系在職專班
    Keywords: 機聯網;垂直通訊;方法論;SEMI SMT-ELS;Vertical Communication;MIAT
    Date: 2023-07-24
    Issue Date: 2023-10-04 15:26:14 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 由於工業4.0的推行,大多需以機台的自動化先執行,也就是從機聯網開始發展,因工業智慧智能化使得產業對於通訊整合的需求有所增加,因此本文提出SMT-ELS機聯網垂直通訊應用情境設計與驗證,針對垂直通訊連接整合,達到機聯網的效果,藉由TCP/IP通訊架構所設計,以MIAT方法論設計整個架構,透過功能模組化設計(IDEF0)來設計整體架構及規劃各個功能模組,再以離散事件系統建模(Grafcet)來說明各個功能模組流程,最後透過模組化設計流程,將機聯網實際應用情境透過主機及設備預先設置設備的Responder ID,簡稱RESPID,也就是回應者ID,因此能夠達成三種應用情境之驗證。;Due to the implementation of Industry 4.0, most need to be implemented by the automation of the machine first, that is, from the beginning of the development of the machine network, due to industrial intelligence intelligence makes the industry increased demand for communication integration, so this paper proposes the SMT-ELS machine network vertical communication application scenario design and validation, focusing on the integration of the vertical communication links to achieve the effect of the machine network, designed by the TCP/IP communication architecture, with MIAT methodology to design the entire architecture, through the functional modularization design (IDEF0) to design the overall architecture and planning of each functional module, and then the discrete event system modeling (GEF0) to design and plan each functional module. The MIAT methodology is used to design the entire architecture, and the overall architecture and planning of each functional module is designed through functional modularization design (IDEF0), and then the discrete event system modeling (Grafcet) is used to illustrate the process of each functional module, and finally, through the modularization design process, the actual application of the machine network is pre-set through the host and the device Responder ID, or RESPID, which is the Responder ID, and the Respondent ID. Finally, through the modularization design process, the actual application scenarios of the machine network can be verified by pre-setting the Responder ID of the device by the host and the device, which is called RESPID, or Responder ID.
    Appears in Collections:[Executive Master of Communication Engineering] Electronic Thesis & Dissertation

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