Main Reference PaperChurn-Resilient Protocol for Massive Data Dissemination in P2P Networks, IEEE Transactions on Parallel and Distributed Systems, Aug 2011
  • Massive data dissemination is often disrupted by frequent join and departure or failure of client nodes in a peer-to-peer (P2P) network. This proposes a new churn-resilient protocol (CRP) to assure alternating path and data proximity to accelerate the data dissemination process under network churn. The CRP scheme promotes proximity awareness, dynamic load balancing, and resilience to node failures and network anomalies. This project proposes log server updating mechanism to maintain all the data dissemination details.

+ Description
  • Massive data dissemination is often disrupted by frequent join and departure or failure of client nodes in a peer-to-peer (P2P) network. This proposes a new churn-resilient protocol (CRP) to assure alternating path and data proximity to accelerate the data dissemination process under network churn. The CRP scheme promotes proximity awareness, dynamic load balancing, and resilience to node failures and network anomalies. This project proposes log server updating mechanism to maintain all the data dissemination details.

  • To propose a new churn-resilient protocol (CRP) to guarantee alternating path and data proximity to accelerate the data dissemination process under network churn.

  • CRP networks reduce the average delivery delay by 28 to 50 percent, compared with using the scope flooding and epidemic broadcast trees.

  • The CRP-enabled overlay design promotes proximity awareness, dynamic load balancing, and resilience to network churns by node failures.

  • Search cost is reduced using log server updating Mechanism

+ Aim & Objectives
  • To propose a new churn-resilient protocol (CRP) to guarantee alternating path and data proximity to accelerate the data dissemination process under network churn.

  • CRP networks reduce the average delivery delay by 28 to 50 percent, compared with using the scope flooding and epidemic broadcast trees.

  • The CRP-enabled overlay design promotes proximity awareness, dynamic load balancing, and resilience to network churns by node failures.

  • Search cost is reduced using log server updating Mechanism

  • Log server is mainly used to maintain all the data distribution details in the peer group. This generates dynamic query string for all the data. When the data is added in the peer group, then that detail is updated in the log server. Each peer is identified by their unique name.Each peer is responsible for adding, removing, search and retrieving the resources. If any one of the peer is downloading any resources, then that details is automatically updated in the log server.

+ Contribution
  • Log server is mainly used to maintain all the data distribution details in the peer group. This generates dynamic query string for all the data. When the data is added in the peer group, then that detail is updated in the log server. Each peer is identified by their unique name.Each peer is responsible for adding, removing, search and retrieving the resources. If any one of the peer is downloading any resources, then that details is automatically updated in the log server.

  • Java JDK 1.8, MySQL 5.5.40

  • J2SE, Java Swing

+ Software Tools & Technologies
  • Java JDK 1.8, MySQL 5.5.40

  • J2SE, Java Swing

  • B.E / B.Tech / M.E / M.Tech

+ Project Recommended For
  • B.E / B.Tech / M.E / M.Tech

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