On the Effectiveness of Migration-based Load Balancing Strategies in DHT Systems

@article{Wu2006OnTE,
  title={On the Effectiveness of Migration-based Load Balancing Strategies in DHT Systems},
  author={D. Wu and Y. Tian and K. Ng},
  journal={Proceedings of 15th International Conference on Computer Communications and Networks},
  year={2006},
  pages={405-410}
}
  • D. Wu, Y. Tian, K. Ng
  • Published 2006
  • Computer Science
  • Proceedings of 15th International Conference on Computer Communications and Networks
  • As a fundamental problem in DHT-based P2P systems, load balancing is important to avoid performance degradation and guarantee system fairness. In this paper, to get a better understanding about the effectiveness of migration-based load balancing approaches in DHT systems, we analytically study two representative migration-based load balancing strategies: rendezvous directory strategy (RDS) and independent searching strategy (ISS). They differ in load information management and decision making… CONTINUE READING
    Achieving Resilient and Efficient Load Balancing in DHT-based P2P Systems
    • 2
    • PDF
    Load Balancing in Structured P2P Networks
    • 13
    Towards Practical Virtual Server-Based Load Balancing for Distributed Hash Tables
    • 3
    Rescheduling and checkpointing as strategies to run synchronous parallel programs on P2P desktop grids
    • 1
    • Highly Influenced

    References

    Publications referenced by this paper.
    SHOWING 1-10 OF 13 REFERENCES
    Load Balancing in Structured P2P Systems
    • 515
    • PDF
    Efficient, proximity-aware load balancing for DHT-based P2P systems
    • 213
    • PDF
    Load balancing in dynamic structured P2P systems
    • 416
    • PDF
    Wide-area cooperative storage with CFS
    • 1,840
    • PDF
    Low traffic overlay networks with large routing tables
    • 35
    A cost-based analysis of overlay routing geometries
    • 36
    • PDF
    Load balancing in dynamic structured p 2 p systems Efficient , proximity - aware load balancing for dht - based p 2 p systems
    • 2005