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研究生:賴榮彬
研究生(外文):Jung-Pin Lai
論文名稱:具備多端協同合作能力之安全網路式診斷架構
論文名稱(外文):A Secure e-Diagnostics Framework with the Capability of Supporting Multiple-Party Collaboration
指導教授:鄭芳田鄭芳田引用關係洪敏雄洪敏雄引用關係
指導教授(外文):Fan-Tien ChengMing-Hsiung Hung
學位類別:碩士
校院名稱:國立成功大學
系所名稱:製造工程研究所碩博士班
學門:工程學門
學類:機械工程學類
論文種類:學術論文
論文出版年:2004
畢業學年度:92
語文別:中文
論文頁數:124
中文關鍵詞:協同診斷失效取代遠端委派接管診斷網路服務
外文關鍵詞:Collaborative DiagnosticsSubstitution MechanismRemote DelegationWeb Services
相關次數:
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協同合作式的電子診斷功能將可符合半導體機台未來同步診斷及維修的需求,因此,依據International SEMATECH在e-Diagnostics guidebook中所述之協同式電子診斷功能的建議,本研究發展了一個具備多端協同合作能力之安全網路式診斷架構(A Secure e-Diagnostics Framework with the Capability of Supporting Multiple-Party Collaboration, SCDF)。
SCDF 架構可以使得半導體工廠(Semiconductor Factory)擁有自我監控機台狀態、同步診斷與修護、預測保養、協同診斷等功能。我們利用物件導向技術進行SCDF 的開發,特別地,具有整合異質平台間資料能力的網路服務(Web Services)技術被用來建構系統的通訊基礎建設
(Infrastructure)。同時,我們應用許多措施如統一安全認證服務、XML簽章、XML加密等,以加強系統在網際網路上運作的資訊安全。
SCDF 具有許多在多端協同診斷上必備的功能與機制,包括遠端專家的協同診斷、接管診斷的遠端委派、遠端協同診斷及廠內多端診斷之失效取代機制等。我們相信SCDF 不僅可以應用在半導體產業,亦可以應用在其他高科技產業(如TFT-LCD),以有效地提高生產機台的使用效能(Effectiveness)與可用率(Availability)。
Collaborative e-Diagnostics functions will meet the requirements of future synchronous diagnosis and maintenance for semiconductor equipment. Therefore, according to the suggestions of collaborative e-Diagnostics functions described in the e-Diagnostics guidebook of International SEMATECH, this research develops a secure e-Diagnostics framework with the capability of supporting multiple-party collaboration, called SCDF.
SCDF can enable semiconductor factories to possess a variety of functions, such as self-monitoring of equipment statuses, synchronous diagnosis and repair, predictive maintenance, and collaborative diagnostics. We use object-oriented technologies to develop SCDF. In particular, Web Services, which are capable of integrating data among heterogeneous platforms, are used to establish the communication infrastructure for the system. Also, we apply several measures, such as a unified security-authentication service, XML signature, XML encryption, etc., to enhance the information security of the system operating on Internet. SCDF possesses various essential functions for diagnostics through multiple-party collaboration, which including collaborative diagnosis of remote experts, remote delegation for taking over control of diagnostics, and substitution mechanism in the failures of the remote collaborative diagnosis and the local multiple-party diagnosis. It is believed that SCDF can be applied in not only semiconductor industry but also other high-tech industry, such as TFT-LCD, to increase the effectiveness and availability of the production equipment.
中文摘要
英文摘要
誌謝
目 錄...........................................................................I
圖 目 錄..................................................................... III
第一章、緒論................................................................... 1
1.1 研究背景................................................................... 1
1.2 研究動機................................................................... 1
1.3 研究目的................................................................... 5
1.4 論文架構................................................................... 6
第二章、核心技術............................................................... 7
2.1 網路服務(Web Services)................................................... 7
2.1.1 HTTP(Hyper Text Transfer Protocol)..................................... 9
2.1.2 XML(eXtensible Markup Language)........................................ 9
2.1.3 SOAP(Simple Object Access Protocol).................................... 9
2.1.4 WSDL(Web Service Description Language)................................ 12
2.1.5 UDDI(Universal Description, Discovery and Integration)................ 14
2.2 網路資訊安全技術.......................................................... 17
2.2.1 SSL(Secure Sockets Layer)............................................. 18
2.2.2 XML 簽章(XML signature)............................................... 19
2.2.3 XML 加密(XML encryption).............................................. 20
2.2.4 單一認證服務(Signle Sign-On).......................................... 21
2.3 叢集技術.................................................................. 22
2.4 統一塑模語言(UML)....................................................... 22
2.4.1 物件導向系統的發展程序.................................................. 24
第三章、安全協同合作式電子診斷架構之需求分析與模型設計........................ 27
3.1 系統需求分析.............................................................. 27
3.1.1 多對多全球診斷運作簡介.................................................. 27
3.1.2 需求分析................................................................ 28
3.2 系統架構模型的設計與建構.................................................. 30
3.2.1 建構架構模型............................................................ 30
3.2.2 設計系統元件模型........................................................ 35
3.3 架構訊息的定義............................................................ 38
3.3.1 工廠端的診斷與維修...................................................... 38
3.3.2 原機台供應商的遠端診斷與維修............................................ 39
3.3.3 原機台供應商的遠端專家診斷.............................................. 40
3.3.4 原機台供應商與合作夥伴的診斷服務接管.................................... 42
3.3.5 多端專家協同診斷........................................................ 45
3.3.6 透過網際網路UDDI與設備供應商端連線進行診斷與維修........................ 47
3.3.7 機台診斷管理伺服元件失效取代............................................ 49
第四章、SCDF 系統元件之分析與設計............................................. 51
4.1 通用型嵌入式裝置(Generic Embedded Device, GED).......................... 52
4.2 企業內部服務中介元件(Intranet Universal Description, Discovery, and
Integration, Intranet UDDI).................................................. 68
4.3 機台診斷管理伺服元件(Equipment Diagnostic Manager, EDM)................. 72
4.4 監控與安全伺服元件(Monitoring and Security Server, MSS)................. 82
4.5 遠端診斷伺服元件(Remote Diagnostics Server, RDS)........................ 92
4.6 機台物件模型(Equipment Model).......................................... 100
第五章、應用實例之建構與整合測試............................................. 102
5.1 架構實作................................................................. 102
5.1.1 開發環境............................................................... 102
5.1.2 實作步驟............................................................... 103
5.1.3 使用者介面介紹......................................................... 104
5.2 系統之整合測試........................................................... 109
5.3 架構整合測試............................................................. 117
第六章、結論................................................................. 118
6.1 論文總結................................................................. 118
6.2 研究成果................................................................. 119
6.3 未來研究方向............................................................. 120
參考文獻..................................................................... 121
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