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姓名	游慧怡(Hui-I Yu)  查詢紙本館藏	畢業系所	資訊工程學系在職專班
論文名稱	階層式模組化的工作表單系統設計 (Work Form System Design for Hierarchical Modular Structure)
相關論文	★ 整合GRAFCET虛擬機器的智慧型控制器開發平台 ★ 分散式工業電子看板網路系統設計與實作 ★ 設計與實作一個基於雙攝影機視覺系統的雙點觸控螢幕 ★ 智慧型機器人的嵌入式計算平台 ★ 一個即時移動物偵測與追蹤的嵌入式系統 ★ 一個固態硬碟的多處理器架構與分散式控制演算法 ★ 基於立體視覺手勢辨識的人機互動系統 ★ 整合仿生智慧行為控制的機器人系統晶片設計 ★ 嵌入式無線影像感測網路的設計與實作 ★ 以雙核心處理器為基礎之車牌辨識系統 ★ 基於立體視覺的連續三維手勢辨識 ★ 微型、超低功耗無線感測網路控制器設計與硬體實作 ★ 串流影像之即時人臉偵測、追蹤與辨識─嵌入式系統設計 ★ 一個快速立體視覺系統的嵌入式硬體設計 ★ 即時連續影像接合系統設計與實作 ★ 基於雙核心平台的嵌入式步態辨識系統
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 (2024-6-30以後開放)
摘要(中)	基於欲實現智慧工廠的需求日益增多，快速實現系統功能，在交期之內，交付客戶，成了一大挑戰。本研究提出階層式模組化的工作表單系統設計，使用MIAT系統設計方法論，按照IDEF0階層式、模組化設計，進行Grafcet離散事件建模，以及系統軟體高階合成，來開發加工產業的客戶客製專案表單系統。本研究以四套客製專案來驗證此一方法論。我們記錄這四套專案的開發時間、計數程式碼行數、執行測試項目、回饋偵錯時間的記錄，比較MIAT系統設計方法論與傳統系統開發方式的差異，實際驗證結果顯示，程式碼編撰平均可以減少20%，開發工作天減少30%，測試負擔減輕20%，偵錯花費時間少一半。實驗結果也顯示，當系統複雜度越高，使用MIAT系統設計方法論開發效益越顯卓越。
摘要(英)	Base on the increasing demand of Intelligent Factory, to achieve rapid system function, customer delivery in due date, become a major challenge. This study represents Hierarchical and modular work form system design, using the MIAT system design methodology, Grafcet discrete event modeling and high-level synthesis of system software to develop customized project system in the processing industry according to IDEF0 hierarchical and modular design. This study uses four types of customize project to validate this methodology. We have record their development time, the number of program code lines, the execution of test items and feedback debugging record, compare the difference between the MIAT system design methodology and traditional development method, the result shows that the code compiling average can be reduced 20%, development working days can be reduced 30%, test burden can be reduced 20%, debugging time can reduced half percentage. The experimental results also show that when the system complexity is higher, the development benefit of using the MIAT system design methodology is more efficient.
關鍵字(中)	★ 階層式 ★ 模組化 ★ 工作表單 ★ 系統設計	關鍵字(英)
論文目次	目錄 摘 要.................................... I ABSTRACT.................................II 致謝.....................................III 目錄.....................................IV 圖目錄................................... VII 表目錄....................................IX 第一章、緒論..............................1 1.1 研究背景與動機........................1 1.2 研究目的..............................2 1.3 論文架構..............................3 第二章、相關技術回顧......................4 2.1 智慧製造..............................4 2.2 工作表單系統..........................8 2.3 系統開發生命週期......................9 需求確認..................................9 系統分析.................................11 系統設計.................................12 系統開發.................................12 系統實施與評估...........................12 2.4 軟體重用.............................12 第三章、階層式模組化的工作表單系統設計...15 3.1 系統設計.............................15 3.1.1 階層式架構設計.....................17 3.1.2 離散事件系統建模...................20 3.2 工作表單系統模組設計.................21 3.3.1 工程模組...........................22 3.3.2 分析模組...........................24 3.3.3 列印模組...........................25 3.3.4 系統整合模組.......................27 3.4 工作表單系統程式合成.................28 第四章 應用個案探討......................32 4.1 第一例個案需求與系統架構探討.........33 4.1.1 第一例個案性能驗證.................36 4.2 第二例個案需求與系統架構探討.........37 4.2.1 第二例個案性能驗證.................40 4.3 第三例個案需求與系統架構探討.........41 4.3.1 工程模組...........................43 4.3.2 分析模組...........................47 4.3.3 列印模組...........................49 4.3.4 第三例個案性能驗證.................51 4.4 第四例個案需求與系統架構探討.........52 4.4.1 工程模組...........................54 4.4.2 分析模組...........................57 4.4.3 列印模組...........................59 4.4.4 第四例個案性能驗證.................60 4.5 討論.................................61 VI 第五章 結論與未來研究方向................63 5.1 結論.................................63 5.2 未來研究方向.........................64 參考文獻.................................65
參考文獻	[1] S Pressman Roger, Software Engineering: A Practitioner′s Approach (Sixth Edition), New York:McGraw-Hill, 2005, pp. 77-99. [2] Jose Luis Barros Justo, Nelson Martinez Araujo and Alejandro Gonzalez Garcia, "Software Reuse and Continuous Software Development: A Systematic Mapping Study", IEEE Latin America Transactions, vol.16, no.5, 2018, pp. 1539-1546. [3] B. Fitzgerald and K.-J. Stol, "Continuous software engineering: A roadmap and agenda," Journal of Systems and Software, vol. 123, pp. 176-189, 2017 [4] M. D. McIlroy, J. Buxton, P. Naur, and B. Randell, "Mass-produced software components," in Proceedings of the 1st International Conference on Software Engineering, Garmisch Pattenkirchen, Germany, 1968, pp. 88-98. [5] Smart manufacturing, "Smart manufacturing", [Online] https://en.wikipedia.org/wiki/Smart_manufacturing [6] H. Zhao, and J. Hou, "Design Concerns for Industrial Big Data System in the Smart Factory Domain: From Product Lifecycle View.", presented at the 2018 23rd International Conference on Engineering of Complex Computer Systems (ICECCS), 2018, pp. 217-220. [7] R. F. Babiceanu and R. Seker, "Big Data and virtualization for manufacturing cyber-physical systems: A survey of the current status and future outlook," Computers in Industry, vol. 81, pp. 128-137, 2016. [8] H. P. Breivold, "A Survey and Analysis of Reference Architectures for the Internet-of-things," ICSEA 2017, p. 143, 2017. [9] H. Zhao and J. Hou, "Design Concerns for Industrial Big Data System in the Smart Factory Domain: From Product Lifecycle View," presented at the 2018 23rd 66 International Conference on Engineering of Complex Computer Systems (ICECCS), 2018. [10] T. Chan, "The Development of Smart Manufacturing and Cases Study in Taiwan," in 2018 IEEE International Conference on Advanced Manufacturing (ICAM), 2018: IEEE, pp. 117-118. [11] B. Suryajaya, C.-C. Chen, M.-H. Hung, Y.-Y. Liu, J.-X. Liu, and Y.-C. Lin, "A fast large-size production data transformation scheme for supporting smart manufacturing in semiconductor industry," in 2017 13th IEEE Conference on Automation Science and Engineering (CASE), 2017: IEEE, pp. 275-281. [12] H. Lasi, P. Fettke, H.-G. Kemper, T. Feld, and M. Hoffmann, "Industry 4.0," Business & information systems engineering, vol. 6, no. 4, pp. 239-242, 2014. [13] SDLC, " SDLC ", [Online] https://en.wikipedia.org/wiki/Systems_development_life_cycle [14] D. Leffingwell, D. Widrig, "Managing Software Requirements- A Use Case Approach", Addison-Wesley, USA, May 2003, 2nd edition, pp 124-125 [15] R. J. Mayer, "IDEF0 function modeling," A Reconstruction of the Original Air Force Wright Aeronautical Laboratory Technical Report, AFWAL-TR-81-4023 (The IDEF0 Yellow Book), Knowledge-Based System Inc, College Station, TX, 1992. [16] 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	審核日期	2019-7-12
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