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姓名	高興(Hsing Kao)  查詢紙本館藏	畢業系所	通訊工程學系在職專班
論文名稱	SMT-ELS機聯網通訊協定之橫向通訊的一般數據軟體設計和實作 (Implementation of Horizontal Communication General Data Software for SEMI SMT-ELS)
相關論文	★ 狗鼻紋理特徵擷取和犬隻身分識別
檔案	[Endnote RIS 格式]    [Bibtex 格式]    [相關文章]   [文章引用]   [完整記錄]   [館藏目錄]   至系統瀏覽論文 (2028-1-11以後開放)
摘要(中)	台灣的高規格印刷電路板市場日漸強大，為了解決設備管理以及成本相關問題，SEMI 國際半導體產業協會所提出的SME-ELS機聯網通訊協定將作為本研究目標。在SEMI A1/A1.1所制定的規範中，透過TCP/IP對主機端與設備間分配專屬的對應編號後，調整Socket API 相關連線設定。並基於MIAT方法論使用IDEF0功能建模、GRAFCET離散事件建模後處理高階軟體合成。本研究以實現單一設備可同時傳送和接收數據為目標，並針對HC General Data傳輸法進行實驗，使用訊息協定(message protocol)和流式連接(Flow Connection)傳輸法完善數據傳輸的流程。
摘要(英)	Taiwan′s high-specification printed circuit board market is becoming stronger and stronger. In order to solve equipment management and cost-related problems, the SME-ELS machine networking communication protocol proposed by SEMI International Semiconductor Industry Association will be used as the research target. In the specifications formulated by SEMI A1/A1.1, after assigning a dedicated corresponding number between the host and the device through TCP/IP, adjust the connection settings related to the Socket API. And based on the MIAT methodology, use IDEF0 functional modeling and GRAFCET discrete event modeling to post-process high-level software synthesis. The goal of this study is to realize that a single device can transmit and receive data at the same time, and conduct experiments on the HC General Data transmission method, using the message protocol and the Flow Connection transmission method to improve the data transmission process.
關鍵字(中)	★ SMT-ELS ★ 機聯網 ★ 智慧製造 ★ Socket API ★ 橫向通訊	關鍵字(英)
論文目次	摘要 I Abstract II 目錄 III 圖目錄 V 表目錄 VII 第一章、緒論 1 1.1 研究背景 1 1.2 研究目的 3 1.3 論文架構 3 第二章、技術回顧 4 2.1 機聯網 4 2.2 SEMI-ELS A1/A1.1協定內容 4 2.3 Socket API 7 2.4 MIAT方法論 8 2.4.1 IDEF0階層式架構 9 2.4.2 GRAFCET離散事件建模 11 2.4.3 高階軟體合成 13 第三章、系統架構 17 3.1 HC General Data系統架構 17 3.2 HC General Data離散事件建模 19 3.2.1 HC General Data Header模組設計 19 3.2.2 HC General Data Body模組設計 27 3.3 封包傳送格式 30 3.4 HC General Data傳輸模式 32 3.4.1 訊息協定 32 3.4.2 流式連接說明和應用範例 33 第四章、General Data軟體驗證 37 4.1 實驗開發環境 37 4.2 橫向通訊一般數據傳送 37 4.3 橫向通訊一般數據通訊軟體驗證 38 4.3.1 進入數據握手流程 39 4.3.2 一般數據內容(General Data Header)設置及傳送 39 4.3.3 一般數據內容(General Body)設置及傳送 40 4.3.4 結束當前數據握手流程並進入下一輪 41 第五章、結論與未來展望 43 5.1 結論 43 5.2 未來展望 44 參考文獻 45
參考文獻	[1] F. Tao, Y. Zuo, L. Da Xu, and L. Zhang, “Iot-based intelligent perception and access of manufacturing resource toward cloud manufacturing,” in IEEE Transactions on Industrial Informatics, Volume 10, no. 2, May 2014, pp. 1547-1557. [2] J. Du and S. W. Chao,“A study of information security for M2M of IOT” 2010 3rd International Conference on Advanced Computer Theory and Engineering(ICACTE), Volume 3, August 2010, pp. 534-576. [3] Q. Gao, F. Li, and C. Chen, “Research of internet of things applied to manufacturing execution system,” in 2015 IEEE International Conference on Cyber Technology in Automation, Control, and Intelligent Systems (CYBER) , June 2015, pp. 661-665. [4] Z. Sun, X. Zhang, T. Wang, and Z. Wang, ‘‘Edge computing in Internet of Things: A novel sensing-data reconstruction algorithm under intelligent-migratoin stragegy,’’ IEEE Access, Volume 8, March 2020, pp. 50696-50708. [5] M. T. Naing, T. T. Khaing and A. H. Maw, "Evaluation of TCP and UDP Traffic over Software-Defined Networking," International Conference on Advanced Information Technologies (ICAIT) , November 2019, pp. 7-12. [6] I. Coonjah, P. C. Catherine and K. M. S. Soyjaudah, "Experimental performance comparison between TCP vs UDP tunnel using OpenVPN," 2015 International Conference on Computing, Communication and Security (ICCCS) , December 2015, pp. 1-5. [7] D. K. P. Asiedu, S. Mahama, C. Song, D. Kim, and K.-J. Lee, “Beamforming and resource allocation for multiuser full-duplex wireless-powered communications in IoT networks,” IEEE Internet of Things Journal, Volume 7, No.12, December 2020, pp. 11355-11370. [8] Ming-Yi Lin, Ching-Han Chen, Zong-Bin Dong, Chun-Cheng Chen, "Gigabit Modbus user datagram protocol fieldbus network integrated with industrial vision communication", Microprocessors and Microsystems, Volume 94, October 2022, 104682. [9] Ching-Han Chen, Ming-Yi Lin, Wee-Ping Tew, "Wireless Fieldbus Networking with Precision Time Synchronization for a Low-Power WSAN", Microprocessors and Microsystems, Volume 90, April 2022, 104509. [10] Ching-Han Chen, Ming-Yi Lin, Yu-Chien Shih, "High-Precision Time Synchronization Chip Design for Industrial Sensor and Actuator Network", Microprocessors and Microsystems, Volume 91, June 2022, 104507. [11] Ching-Han Chen, Chao-Tsu Liu,"A 3.5-Tier Container-Based Edge Computing Architecture", Computers and Electrical Engineering, Volume 93, July 2021, 107227. [12] Ching-Han Chen, Ming-Yi Lin, Xing-Chen Guo, "High Performance Fieldbus Application-Specific Integrated Circuit Design for Industrial Smart Sensor Networks", Journal of Supercomputing, September 2018, Vol.74, No.9, pp 4451-4469. [13] Ching-Han Chen, Ming-Yi Lin,and Jhong-Ci Liou, "Edge Computing Gateway of Industrial Internet of Things Using Multiple Collaborative Microcontrollers", IEEE Network, vol.32, no.1, January/February 2018, pp.12–21. [14] Ching-Han Chen, Ming-Yi Lin, Xing-Chen Guo, "High-level Modeling and Synthesis of Smart Sensor Networks for Industrial Internet of Things", Computers & Electrical Engineering, Vol.61, July 2017, pp.48–66.
指導教授	陳慶瀚 陳永芳	審核日期	2023-1-17
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