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研究生:王泰翔
研究生(外文):WANG TAI-HSIANG
論文名稱:以行動代理人及串流控制傳輸協定建置網格服務平台
論文名稱(外文):A Grid Service Platform Using Mobile Agents and Stream Control Transmission Protocol
指導教授:呂芳懌呂芳懌引用關係
指導教授(外文):LEU FANG-YIE
學位類別:碩士
校院名稱:東海大學
系所名稱:資訊工程與科學系
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2007
畢業學年度:95
語文別:英文
論文頁數:42
中文關鍵詞:網格服務行動代理人無線網格串流控制傳輸協定
外文關鍵詞:Grid servicemobile agentwireless GridSCTP
相關次數:
  • 被引用被引用:0
  • 點閱點閱:126
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  • 下載下載:20
  • 收藏至我的研究室書目清單書目收藏:0
近年來,工商業及學術研究領域對於網格運算資源的需求日漸增加,其技術架構與規模正因應使用者的需求而快速的發展與佈建中。然而,大多數的網格系統僅能利用有線網路相互連接,極少有配備無線網路作為通訊媒介,亦無法進一步服務使用手持行動裝置之使用者。如果能將網格系統、無線網路與裝置、無線通訊技術與資源等進行整合,形成一無線網格系統,如此使用者便可利用各式裝置及有線、無線網路存取網格資源,進而使網格技術更加普及,並能更廣泛的應用在各領域中,服務更多的使用者。在此論文中,我們提出一套可靠的無線網格服務平台(Reliable Wireless Grid Service Platform,RWGSP),其將行動代理人平台及無線通訊設備安裝於各網格節點上,使用者將可藉由行動代理人,透過有線或無線網路進行服務或資源之存取,同時藉由整合串流控制傳輸協定,使用者將獲得更穩定的通訊品質,並能解決排頭擁塞(Head-of-Line,HOL)問題。
Due to a huge amount of scientific, commercial and industrial requirements, Grid computing infrastructures have been quickly developed and constructed recently to fulfill users’ computational needs. However, most current Grid systems connect nodes with hard-wired links. Seldom adopt wireless and mobile devices as their communication media and client facilities, respectively, to serve users. If we can integrate a Grid system with wireless networks, devices, techniques and resources to form a wireless Grid infrastructure where end users can deploy different kinds of wired and wireless terminal devices to access Grid resources, Grid systems will be soon popularly and widely used in different domains to serve many more people in the world. In this paper, we propose a wireless Grid resource platform, named Reliable Wireless Grid Service Platform (RWGSP), which integrates mobile agent and wireless techniques with a Grid system to provide users with a wireless accessible mobile agent environment in which the SCTP protocol is employed to increase reliability of system communication and solve Head-of Line problem.
Abstract I
摘要 II
誌謝 III
Table of Content IV
List of Figures VI
List of Tables VIII
Chapter 1: Introduction 1
Chapter 2: Background and Related Work 4
2.1. Grid computing approaches 4
2.2. Wireless Grid approaches 4
2.3. Mobile Agent approaches 4
2.4. SCTP approaches 5
Chapter 3: System Architecture 6
3.1. Multiple Network Interfaces 8
3.2. Wired/Wireless Connectivity 8
3.3. Traversal through NAT 9
3.4. Multi-Homing 9
3.5. Multi-Streaming 10
3.6. GMAP 11
3.7. Sendbox Maintenance 12
3.8. Security 12
Chapter 4: Inter-agent Communication Protocols 13
4.1. Agent Management and Tracking 13
4.2. Agent States 13
4.3. Distributed Sendbox Scheme 14
4.3.1. Direct Mode 14
4.3.2. Forward Mode 15
4.4. Algorithms 16
4.5. Utilization Analysis 18
4.6. Communication Cost Analysis 18
Chapter 5: Service and Resource Broking 20
5.1. Resource Broker 20
5.2. Service types 21
5.2.1. Instant Response Service 21
5.2.2. Subscribe-and-Notify Service 22
5.3. Resource Selection 23
5.3.1. Communication Scoring 23
5.3.2. Resource Scoring 24
5.4. Transferring Optimization 26
Chapter 6: Experiments and Discussion 28
6.1. Inter-Agent Communication 28
6.2. Single-Homed and Multi-Homed Services 31
6.3. Multi-Streamed Service Delivery 35
6.4. Service Delivery in Grid Environment 36
Chapter 7: Conclusion and Future Work 39
References 40
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