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研究生:蔡明叡
研究生(外文):Ming-Jui Tsai
論文名稱:應用物件導向設計結構矩陣設計工業4.0環境中的即時監控系統
論文名稱(外文):Applying Object-Oriented Design Structure Matrix to Design the Real-time Monitoring System of Industry 4.0
指導教授:高信培高信培引用關係
指導教授(外文):Hsing-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:中文
論文頁數:74
中文關鍵詞:工業4.0網宇實體系統資料獲取與監視控制系統擴增實境設計結構矩陣系統設計
外文關鍵詞:Industry 4.0Cyber-Physical SystemSupervisory Control And Data AcquisitionAugmented RealityDesign Structure MatrixSystem Design
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於第三次工業革命,全球推展數位化與網際網路以交換巨量資訊,進而整合製造、服務、能源、交通、電子產品等產業,因此創新出更多樣的商業模式。如今在此資訊爆炸的時代,我們正在經歷第四次工業革命,也就是通稱的工業4.0。在工業4.0的環境中,將有更多更新的商業模式、科技技術、工作流程以及產品開發方法,而這些變化也將劇烈的影響商務與社會。
與工業4.0息息相關的網宇實體系統 (Cyber-Physical System, CPS)日漸發展成熟。有別於之前強調內嵌式系統之間的整合與機器運算能力,CPS更為強調各個實體裝置、電腦運算網路、以及物聯網之間的連結關係。本研究首先針對CPS的整合問題,於傳統的資料獲取與監視控制系統 (Supervisory Control And Data Acquisition, SCADA)中,加入擴增實境(Augmented Reality, AR)的應用技術,將CPS定義為整合式控制系統。其中,SCADA用以遠距蒐集即時資料以及控制設備與製程,AR則用以疊加與呈現真實世界以及虛擬世界的資訊。
關於系統分析與設計,本研究首先應用物件導向設計(Object-Oriented Design, OOD)建立CPS各種元件之間的關聯性,繼而以設計結構矩陣(Design Structure Matrix, DSM),建立物件關係矩陣以建構系統的基本架構,進而設計CPS的即時監控系統。
In the third industrial revolution, the digitization and the internet were expanded all over the world to exchange the huge amount of information, integrated manufacturing, services, energy, transportation, electronic product, and so on. As a result, new innovative business models are created. In the new era of Information explosion, we are currently experiencing the fourth Industrial Revolution, which is known as the industry 4.0. In industry 4.0, more and more new business models, technologies, workflows and product development methods; therefore, these changes will be greatly affected business and society.
Cyber Physical System (CPS) which is closely related to Industry 4.0 is increasingly mature. Compare to the previous emphasize integration, the most difference between the machine computing embedded systems is that CPS has strong emphases on each physical device, computer network operation, Internet of Things (IoT) and the connection between them. In this research, we focus on the integration of the CPS. Adding the Augmented Reality (AR) application technology to the Supervisory Control and Data Acquisition (SCADA), the CPS is defined as an integrated control system. SCADA is a system for remoting real-time data collection and controlling equipment and processes. AR is superimposed to show the real world and the virtual world of information. AR provides a view of the real world relied on superimposed information which has been applied to the virtual world.
About the system analysis and design, this research will apply Object-Oriented Design (OOD) technology to create the correlation between the components, and the framework of the system referring to the concept of Design Structure Matrix (DSM) is evaluated. Based on this, we can design a CPS real-time monitoring system.
中文摘要 I
Abstract II
Table of Contents IV
List of Figures VI
List of Tables VIII
Abbreviations IX
Chapter 1 Introduction 1
1.1. Background 1
1.2. Motivation & Objectives 2
1.3. Research Overview 3
Chapter 2 Literature Review 5
2.1. Cyber-Physical System 5
2.2. Supervisory Control and Data Acquisition 11
2.3. Augmented Reality 17
Chapter 3 Methodology 20
3.1. Methodology framework 20
3.2. Overview of Methodology 23
3.2.1. Object-Oriented Analysis 23
3.2.2. Object-Oriented Design 24
3.2.3. Design Structure Matrix 27
3.2.3.1. Introduction 27
3.2.3.2. Categories 30
3.2.3.3. Partitioning 31
Chapter 4 Application 33
4.1. The Real-time Monitoring System Design (I4RMS) 34
4.2. The Functions of Components 37
4.3. Methodology Implement 46
4.4. Analysis of DSM 46
Chapter 5 Conclusions and Future Research 56
5.1. Conclusions 56
5.2. Future Research 57
References 58

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