(18.206.12.76) 您好!臺灣時間:2021/04/23 09:25
字體大小: 字級放大   字級縮小   預設字形  
回查詢結果

詳目顯示:::

我願授權國圖
: 
twitterline
研究生:梁乃哲
研究生(外文):Nei-Zhe Liang
論文名稱:應用品質機能展開及設計結構矩陣設計智慧工廠
論文名稱(外文):Applying Quality Function Deployment and Design Structure Matrix to design smart factory
指導教授:高信培高信培引用關係
指導教授(外文):Hsin-Pei Kao
學位類別:碩士
校院名稱:國立中央大學
系所名稱:工業管理研究所
學門:商業及管理學門
學類:其他商業及管理學類
論文種類:學術論文
論文出版年:2016
畢業學年度:104
語文別:英文
論文頁數:49
中文關鍵詞:網宇實體系統智慧工廠設計結構矩陣品質機能展開
外文關鍵詞:Cyber-Physical Systemsmart factoryDesign Structure MatrixQuality function Deployment
相關次數:
  • 被引用被引用:1
  • 點閱點閱:196
  • 評分評分:系統版面圖檔系統版面圖檔系統版面圖檔系統版面圖檔系統版面圖檔
  • 下載下載:0
  • 收藏至我的研究室書目清單書目收藏:1
隨著數據通訊技術的演進,以及電腦運算能力的大幅提升,引爆數位化潮流,從而衍生了第四次工業革命,又稱為「工業4.0」。虛實整合系統(Cyber-Physical System, CPS)是「工業4.0」的關鍵技術。藉由電腦、感測器(Sensors),並運用新的網路技術聯結各種設備、機器及數位系統,通過它們之間的溝通與相互作用,整合虛擬及實體世界。為實體系統添加新的智慧及能力,達到即時感知、動態控制,並提供智慧型即時訊息服務。因此,過去毫無交集的工控領域與IT領域在物聯網開始對話。而在未來的智慧工廠在各個生產環節、操作設備都具備獨立自主的能力,可自動化完成生產線操作。且設備都能相互溝通、即時監控周遭環境,隨時找到問題加以排除,也具有更靈活、彈性的生產流程。
品質機能展開(Quality function Deployment,QFD)已被廣泛運用於許多領域, 諸如產品設計、製程設計以及專案開發。其可將顧客需求轉換為組織的工程技術,經由工程技術的實踐,進而成功的達到滿足使用需求;而設計結構矩陣具有易於辨識,易懂之優點,容易表示設計參數彼此之間的關係。藉此本研究將以CPS為研究環境,應用QFD設計智慧工廠,並且應用DSM (Design Structure Matrix, DSM) 設計流程,由DSM交互作用的結果,設計出符合CPS環境的智慧工廠。

With the evolution of data communications technology, as well as significantly enhance the computing power of digital, which derived the fourth industrial revolution, also known as the "Industry 4.0." Cyber-Physical System (CPS) is not only key technologies for "Industry 4.0", but also currently a hot topic. With computers, sensors and the use of new Internet technology to link various equipment, machines and digital systems through communication and interaction between them to integrate of virtual and physical world. By adding new kind of system of wisdom and capability to meet the immediate perception, dynamic control, and provides intelligent message service. Therefore, disjoint industrial areas and IT fields to start a conversation in IOT. Future every production processes in intelligence factory, each operating devices have an independent capacity, automated production line to complete the operation. And each device can communicate with each other, real-time monitoring the surrounding environment, always find a problem to be eliminated, but also has a more flexible.
Quality function Deployment (QFD) has been widely used in many fields, such as product design, process design and project development. It can be converted to customer demand for tissue engineering and technology, through the practice of engineering and technology, and thus the success of reach to meet customer demand; Design Structure Matrix (DSM) has an easy to identify, easy to understand the advantages, readily shows the relationship between each of the design parameters. This research will be an industry 4.0 environment as the background, use QFD to design smart factory, and use Design Structure Matrix (DSM) to design process. Base on the results of DSM interaction to design smart factory used in industrial 4.0 environments.

中文摘要 i
Abstract ii
Table of Contents iv
List of Figures vi
List of Tables vii
Chapter 1 Introduction 1
1.1 Background 1
1.2 Motivation & Objectives 3
1.3 Research Overview 3
Chapter 2 Literature Review 5
2.1 Industry 4.0 5
2.2 Cyber-Physical System 8
2.2.1 Cyber-Physical Systems and Internet of Things 9
2.3 Smart factory 11
Chapter 3 Methodology 16
3.1 Methodology framework 16
3.2 Overview of Methodology 17
3.2.1 Quality Function Deployment 17
3.2.2 Design Structure Matrix 21
Chapter 4 Application 28
4.1 Smart factory 28
4.2 Methodology implement 31
4.2.1 Analysis of QFD and DSM 31
Chapter 5 Conclusion and Future Research 36
5.1 Conclusion 36
5.2 Future Research 37
Reference 38



Akao, Yoji. "Quality function deployment." (2004).
Azuma, Ronald T. "A survey of augmented reality." Presence: Teleoperators and virtual environments 6.4 (1997): 355-385.
Baheti, Radhakisan, and Helen Gill. "Cyber-physical systems." The impact of control technology 12 (2011): 161-166.
Bauer, Martin, Lamine Jendoubi, and Oliver Siemoneit. "Smart Factory–Mobile Computing in Production Environments." Proceedings of the MobiSys 2004 Workshop on Applications of Mobile Embedded Systems (WAMES 2004). 2004.
Browning, Tyson R. "Applying the design structure matrix to system decomposition and integration problems: a review and new directions." IEEE Transactions on Engineering management 48.3 (2001): 292-306.
Browning, Tyson R. "Design structure matrix extensions and innovations: a survey and new opportunities." IEEE Transactions on Engineering Management 63.1 (2016): 27-52.
Chan, Lai-Kow, and Ming-Lu Wu. "Quality function deployment: A literature review." European Journal of Operational Research 143.3 (2002): 463-497.
Kim, Eui-Jik, and Sungkwan Youm. "Machine-to-machine platform architecture for horizontal service integration." EURASIP Journal on Wireless Communications and Networking 2013.
Govers, Cor PM. "What and how about quality function deployment (QFD)."International journal of production economics 46 (1996): 575-585.
Heng, Stefan. "Industry 4.0: Upgrading of Germany's Industrial Capabilities on the Horizon." Available at SSRN 2656608 (2014).
Shrouf, Fadi, Joaquin Ordieres, and Giovanni Miragliotta. "Smart factories in industry 4.0: a review of the concept and of energy management approached in production based on the Internet of things paradigm." 2014 IEEE International Conference on Industrial Engineering and Engineering Management. IEEE, 2014.
Jazdi, Nasser. "Cyber physical systems in the context of Industry 4.0."Automation, Quality and Testing, Robotics, 2014 IEEE International Conference on. IEEE, 2014.
Kao, Hung-An, et al. "A Cyber Physical Interface for Automation Systems—Methodology and Examples." Machines 3.2 (2015): 93-106.
Kagermann, Henning, et al. Recommendations for implementing the strategic initiative INDUSTRIE 4.0: Securing the future of German manufacturing industry; final report of the Industrie 4.0 Working Group. Forschungsunion, 2013.
Lacey, Gerard, and Kenneth M. Dawson-Howe. "The application of robotics to a mobility aid for the elderly blind." Robotics and Autonomous Systems 23.4 (1998): 245-252.
Lee, Edward A. "Cyber physical systems: Design challenges." 2008 11th IEEE International Symposium on Object and Component-Oriented Real-Time Distributed Computing (ISORC). IEEE, 2008.
Lucke, Dominik, Carmen Constantinescu, and Engelbert Westkämper. "Smart factory-a step towards the next generation of manufacturing." Manufacturing systems and technologies for the new frontier. Springer London, 2008. 115-118.
MacDougall, William. Industrie 4.0: Smart Manufacturing for the Future. Germany Trade & Invest, 2014.
McAfee, Andrew, et al. "Big data." The management revolution. Harvard Bus Rev 90.10 (2012): 61-67.
Shi, Jianhua, et al. "A survey of cyber-physical systems." Wireless Communications and Signal Processing (WCSP), 2011 International Conference on. IEEE, 2011.
Wasserman, Gary S. "On how to prioritize design requirements during the QFD planning process." IIE transactions 25.3 (1993): 59-65.
Yassine, A. "An introduction to modeling and analyzing complex product development processes using the design structure matrix (DSM) method."Urbana 51.9 (2004): 1-17.
Zanella, Andrea, et al. "Internet of things for smart cities." IEEE Internet of Things Journal 1.1 (2014): 22-32.
Zühlke, Detlef. "SmartFactory–A Vision becomes Reality." IFAC Proceedings Volumes 42.4 (2009): 31-39.
Deloitte (2014) Industry 4.0 Challenges and solutions for the digital transformation and use of exponential technologies
Ignite – Manufacturing and Industry from: http://enterprise-iot.org/book/enterprise-iot/part-i/manufacturing/

連結至畢業學校之論文網頁點我開啟連結
註: 此連結為研究生畢業學校所提供,不一定有電子全文可供下載,若連結有誤,請點選上方之〝勘誤回報〞功能,我們會盡快修正,謝謝!
QRCODE
 
 
 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                               
第一頁 上一頁 下一頁 最後一頁 top
系統版面圖檔 系統版面圖檔