Context-Aware Systems and Applications, and Nature of Computation and Communication. 6th International Conference, ICCASA 2017, and 3rd International Conference, ICTCC 2017, Tam Ky, Vietnam, November 23-24, 2017, Proceedings

Research Article

The Method of Maintaining Data Consistency in Allocating Resources for the P2P Network Model

  • @INPROCEEDINGS{10.1007/978-3-319-77818-1_15,
        author={Ha Nguyen and Hong Nguyen and Trung Doan},
        title={The Method of Maintaining Data Consistency in Allocating Resources for the P2P Network Model},
        proceedings={Context-Aware Systems and Applications, and Nature of Computation and Communication. 6th International Conference, ICCASA 2017, and 3rd International Conference, ICTCC 2017, Tam Ky, Vietnam, November 23-24, 2017, Proceedings},
        proceedings_a={ICCASA \& ICTCC},
        year={2018},
        month={3},
        keywords={P2P Distributed system Data consistency Multi-copy},
        doi={10.1007/978-3-319-77818-1_15}
    }
    
  • Ha Nguyen
    Hong Nguyen
    Trung Doan
    Year: 2018
    The Method of Maintaining Data Consistency in Allocating Resources for the P2P Network Model
    ICCASA & ICTCC
    Springer
    DOI: 10.1007/978-3-319-77818-1_15
Ha Nguyen1,*, Hong Nguyen2,*, Trung Doan3
  • 1: Quangnam University
  • 2: People’s Security University
  • 3: People’ Security Academy
*Contact email: nguyenhahuycuong@gmail.com, hongminhnguyen1982@gmail.com

Abstract

Maintaining consistency of mutable data replication in a Peer-to-Peer (P2P) system is a fundamental challenge. That is the frequency problem of structural change in P2P system i.e. how often does the actual structure of the tree change. There are several models which exhibit better characteristics for updating structure. However, it is worth separating the changes of structure from effect of data. An novel approach for balanced consistency maintenance in structured tree in P2P systems supporting heterogeneous distributed platforms is presented in this article. Nodes of each object are organized into a tree structure for disseminating update processes. An analytical model to optimize is showed theoretically. Several simulations for experiment results will be carried out in the dynamic network conditions.