第10部　信頼性を有するマルチキャスト技術 (pdf)

1. 誤り訂正符号を用いたパケット回復の性能測定
   1. はじめに
   2. FEC によるパケット損失の回復
   3. パケット損失の実測
   4. パケット損失の傾向分析
   5. FEC による損失回復のシミュレーション
   6. 考察
   
   
   
2. Design and Evaluation of Dynamic Protocol Selection Architecture for Reliable
   Multicast
   1. Introduction
   2. Goal of this research
   3. Related works
   4. Preparation for the data distribution
      1. Acquirement of receiver information
      2. Acquirement of topology information
      3. Allocation of aggregation nodes
      4. Protocol selection
      5. Program distribution
      6. Data distribution
   5. Aggregation nodes
      1. Determining the designate node
      2. Determining the intermediate node
      3. Relation between aggregation and multicast routing protocols
         
   6. Mechanism of dynamic protocol selection
      1. Acquairement of receiver and topology information
      2. Protocol switching
      3. Program and data distribution
         
   7. Evaluation of dynamic protocol selection
      1. Environment of experiment
      2. Result of experiment
         
   8. Imprementation problem of dynamic protocol selection
      
   9. Consideration of the overhead
      1. Environment of experiment
      2. Result of experiment
         
   10. Conclusion
       
   11. Future work
       
       
3. Study on Merge of TCP Traffic using Reliable Multicast Transport
   1. Introduction
   2. Goal of our research
   3. Architecture for merge of TCP Traffic
      1. Protocol Translation Server
      2. Session
      3. Reliable Multicast Protocol
   4. FTP Proxy
      1. Target Traffic of FTP Proxy
      2. System Configuration
      3. Components of FTP Proxy
      4. Behavior of FTP Proxy
      5. Session Information
   5. Implementation Issue of FTP Proxy
      1. FTP server
      2. Reliable Multicast Protocol
   6. Conclusion
      
      

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