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姓名	林潔(Lin Chieh)  查詢紙本館藏	畢業系所	工業管理研究所在職專班
論文名稱	工業4.0環境中商業流程的分析與設計
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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 ( 永不開放)
摘要(中)	現今雲端傳輸技術進步，資訊流通與轉換相對快速與即時。因此，顧客需求環境轉換為小量且需求快速多樣；為因應快速變化的環境，以代工業為主的台灣，如何有效持續確保維持製造面的優勢、縮短產品開發與上市時間，成為近幾年業界討論的主要課題之ㄧ。 2011年德國在漢諾瓦工業博覽會(EMO)中提出「工業4.0」的科技發展概念，希望導入製造業的電腦化、數位化與智慧化，提升小量客制化生產能力與結合智能生產技術； 將所有工業相關的技術、銷售與產品體驗統合，將工廠組合成具有適應性、資源效率、及人因工程學的智慧工廠(Smart Factory)系統，用以因應變化快速且多樣的需求環境，同時也可以有效的管控生產成本，避免資源浪費。 為此，國內各代工製造業競相成立自動化團隊，建立自動化方案導入和開發。探討如何運用智慧整合感控系統(Cyber-Physical System, CPS)、物聯網 (Internet of Things, IoT)及服聯網(Internet of Services, IoS)，建構出有智慧意識的新型工業系統。 智慧工廠，將會是製造業的下一個重點里程碑。本研究將著重於俱備智慧意識的新型工業系統下，企業流程將會有什麼改變與適應。研究將使用ARIS分析方法，針對在工業4.0的環境中，針對企業流程需要做的調適分析與設計。 希望透過企業流程管理(Business Process Management, BPM) 優化現有的企業流程，讓企業可以更有系統、精確且快速地導入4.0的概念。
摘要(英)	Rapid information exchanging and flow is accounting for current advanced technology. For this, current market that fits customer’s demanding is becoming small, fast-streaming and, with varied capacities. Taiwan, with its OEM industry basis, is facing multiple difficulties, such as effectively sustaining the manufacturing advantages, and shortening the time for product developing and launching. These issues are becoming heated topics of industry field in recent years. In Germany, on 2011 Hannover Messe, the technology developing concept of “Industry 4.0” was proposed, and in which, the concept was hoped to lift up various dimensions of Manufacture Industry, for example, computerization, digitalization, intelligence, small-customized manufacturing ability, and intelligent combination technology. With this concept, it integrates all manufacture related technologies, selling and products application experience. The goal is to make consisting parts of factory more adaptable, efficient in resource application, and a smart factory with artificial intelligence which can respond to fast changing environment plus multiple demands, and, at the same time, effectively control production cost without further resource wasting. In considering of the reason mentioned above, OEM industries in Taiwan are eagerly set up automation team to guide, establish, and develop their own automation plan. Their aim is to figure out the way of how to apply Cyber-Physical System, Internet of Things, and Internet of Service all together to build new factory system with its own intelligent conception. Smart Factory will be the next crucial landmark of manufacture industry. The thesis is to examine changes and adaptation of business process under new factory system combined with its intelligent conception. ARIS methodology will be implemented in this thesis and focused on business process under environment of Industry of 4.0. It analyses process adjustments and sets models for business processes. Through Business Process Management, it can optimize current business process to combine industry with “Industry 4.0” in a systematical and precise approach.
關鍵字(中)	★ 企業流程管理 ★ 智慧整合感控系統 ★ 工業4.0 ★ 物聯網 ★ 整合資訊系統架構	關鍵字(英)	★ Business Process Management ★ Cyber-Physical System ★ Industry4.0 ★ Internet of Things ★ ARIS
論文目次	摘 要 i ABSTRACT ii 目 錄 iv 圖目錄 vi 表目錄 viii 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 2 第二章 文獻探討 5 2-1 工業4.0介紹 5 2-1-1 工業4.0 起源與發展 5 2-1-2 工業4.0設計原則與特色 6 2-1-3 智慧整合感控系統(Cyber-Physical System, CPS) 9 2-1-4 物聯網 (Internet of Things, IoT) 12 2-2 企業流程 15 2-2-1 企業流程基本要素 16 2-2-2 企業流程再造 17 2-3 跨企業工作流程管理 18 第三章 研究方法 20 3-1 企業流程塑模分析方法 20 3-2 ARIS介紹 21 3-2-1 ARIS起源與發展 22 3-2-2 ARIS特點與效益 22 3-2-3 實施ARIS之目的與方法 23 3-2-4 ARIS的實務應用 25 第四章 案例分析與研究結果 27 4-1 個案公司背景 28 4-2 個案公司產業概況分析 29 4-3 個案公司現有商業流程分析 (AS-IS) 30 4-4 個案公司預期商業流程分析 (TO-BE) 39 4-5個案公司現有商業流程與預期商業流程分析比較 52 五、結論與建議 57 5-1 結論 57 5-2 未來研究方向與建議 59 參 考 文 獻 61
參考文獻	參 考 文 獻 [1] Eric Openshaw, Craig Wigginton, John Hagel, John Seely Brown, Maggie Wooll and Preeta Banerjee, “The internet of things Ecosystem: Inlocking the Business Valus of Connected Devices”, Deloitte, 2014 [2] Jochen Schlick, Peter Stephan and Deltlef Zuhlke, “Produktion 2020. Auf dem WEg zur 4. Industiellen Revolution. IM – Fachzeitschrift fur Information Management und Consulting”, 2012 [3] Larry Keeley, :Ten types of Innovation”, The discipline of Building Breakthroughs, 2013 [4] Prof. Dr. Henning Kagermann, “Securing the future of German manufacturing industry- Recommendations for implementing the strategic initiative INDUSTRIE 4.0 “ (Final report of the Industrie 4.0 Working Group), 2013 [5] Deloitte team,”Challenges and solutions for the digital transformation and use of exponential technologies”, 2014 [6] Baheti, Radhakisan, and Helen Gill “Cyber-physical systems,” The Impact of Control Technology Page 161-166, 2011. [7] Jay Lee, Behrad Bagheri , Hung-An Kao, ”A Cyber-Physical Systems architecture for Industry 4.0-based manufacturing systems”, Dec . 2014 [8] German National Academy of Science and Engineering, “Cyber-Physical Systems - . Driving force for innovation in mobility, health, energy and production,” Acatech Position Paper, December 2011. [9] Lee, Edward, “Cyber Physical Systems: Design Challenges,” University of California, Berkeley Technical Report No. UCB/EECS-2008-8. http://www.eecs.berkeley.edu/Pubs/TechRpts/2008/EECS-2008-8.html [10] Mouna Tka, Sonia Ayachi Ghannouchi, ”Comparison of Business Process Models as Part of BPR Projects”, Elsevier, 2012 [11] Wu He and Li Da Xu, Senior Member, “Integration of Distributed Enterprise Applications: A Survey”, IEEE, 2014 [12] N. Jazdi, “ Cyber Physical Systems in the Context of Industry 4.0”, IEEE, 2014 [13] Andrea Zanella, Nicola Bui, Angelo Castellani, Lorenzo Vangelista, Michele Zorzi, “Internet of Things for Smart Cities” , IEEE, 2014 [14] Li Da Xu , Wu He, Shancang Li , “Internet of Things in Industries: A Survey” , IEEE, 2014 [15] Ren Duan, Xiaojiang Chen, Tianzhang Xing, ”A QoS Architecture for IOT” [16] Aalst W.M.P. van der, “Loosely coupled interorganizational workflows: modeling and analyzing workflows crossing organizational boundaries.”, Information & Management, 2000 [17] PROMATIS Group Frank Schoenthaler Dominik Augenstein Thomas Karle Ettlingen (Karlsruhe TechnologyRegion), “Germany Design and Governance of Collaborative Business Processes in Industry 4.0” , 2015 [18] Scheer A. W., “ARIS-Business Process Modeling”, Berlin: Springer,1999 [19] SAP E-Book, http://global.sap.com/community/ebook/2013_11_28302/enUS/index.html#/page/ [20] Drucher P.E, “Innovation And Entrepreneurship: Practice and Principles”, NY: Harper & Row, 1999 [21] Hammer M., and James C., “Reengineering the Corporation, Small Business Reports (18:11) Page 65-68 ,1993 [22] Hammer M., and Stanton S.A., “The reengineering Revolution – A Handbook”, NY: Harper Paperbacks ,1995 [23] Paul Grefen, Karl Aberer, Yigal Hoffner and Heiko Ludwig, “CrossFlow: cross-organizational workflow management in dynamic virtual enterprises*“, Comput Syst Sci & Eng, 2005 [24] Aalst W.M.P. van der, “Loosely coupled inter organizational workflows: modeling and analyzing workflows crossing organizational boundaries.”, Information & Management, 2000 [25] Hollingsworth D., “Workflow Management Coalition: The Workflow Reference Model”, Workflow Management coalition, TC00-1003,1995 [26] Harrington H. J., “Business Process Improvement, NY: McGraw-Hill, Inc.,1991 [27] Bryant T., and Chan D., “BPR-To Redesign or Not to Redesign?”, Business Change & Reengineering (3:2), Page 52-61,1996 [28] Davenport T.H., and Short J.E, “Process Innovation-Reengineering Work Through Information Technology”, Boston: Harvard Business School Press, 1993 [29] BPMI，Business Process Modeling Notation, Version 1.0, May 2004, http://www.bpmi.org/ [30] BPMI.org, “Business Process Modeling Notation, Version 1.0,” May 2004, pp. 149-212 [31] 翁德昌，企業流程管理技巧，憲業企業顧問有限公司，2007 [32] 呂俊德、黃郁琮、陳秀貲，「ARIS流程管理方法在醫療作業流程之應用：以某區域醫院為例」，醫務管理期刊，2007年 [33] 蘇雄義、張家鳳，「ARIS程序管理技術於企業策略程序管理之應用研究」，東吳經濟商學學報，2005年。 [34] 許健平，「物聯網與穿戴式裝置應用」, 2015 [35] 李達生、翁仲銘、彭永新，物聯網核心技術、原理與應，2012 [36] 物聯網三層架構，http://www.etsi.org/website/homepage.aspx。 [37] 屈君懋，「企業流程分析方法之研究」，中山大學，碩士論文，2010年。 [38] 林嘉琪，「企業程序管理之實證研究–ARIS工具之應用」，東吳大學，碩士論文，2000年。 [39] 許玉芬，「品質失效分析與客訴流程管理-以太陽能電池為例」，中央大學，碩士論文，2015年。 [40] 吳仕傑，「運用ARIS建構企業資源規劃參考模型之研究–以Oracle ERP為例」，世新大學，碩士論文，2006年。 [41] 羅佐良，「智慧製造之生產力4.0躍升計畫」，工業技術研究院，2015 [42] 鍾峰宜，「BPMN 在企業模型設計之應用」，M-Power Information Co., Ltd.，2005 [43] DIGITIMES中文網特別企劃 , 「建構工業4.0生產環境因應的嵌入式技術」
指導教授	高信培(H. P. Kao)	審核日期	2016-5-17
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