TY - GEN
T1 - Efficient normal peers group recovery in hierarchical peer-to-peer
AU - Wahjuni, Sri
AU - Ratna, Anak Agung Putri
AU - Ramli, Kalamullah
PY - 2012
Y1 - 2012
N2 - While structured peer-to-peer (P2P) offers benefits on its scalability and efficiency in performing a successful query lookup, its stability is suffered from the dynamics of the overlay structure caused by churn. In a structured hierarchical P2P, in addition to potential decreases of the system performance, the superpeer failure cases also forced the normal peers under its responsibility to disconnect from the system. The ultimate goal of our work is to develop a collective rejoin algorithm that provides an efficient mechanism for the normal peers to rejoin to the system once a superpeer failure occurs. We implemented two-layer hierachy architecture, in which nodes with higher capability are placed in the upper layer and organized in a Chord ring. These nodes act as a gateway for the lower layer in which other nodes are grouped. Each group is organized in a star structure, and each member of the group is connected directly to the related gateway node. We expect our proposed architecture and algorithm produces less traffic load than the individual rejoin approach. Thus, the performance degradation caused by the normal peers rejoin process, as an impact of churn, can be minimized.
AB - While structured peer-to-peer (P2P) offers benefits on its scalability and efficiency in performing a successful query lookup, its stability is suffered from the dynamics of the overlay structure caused by churn. In a structured hierarchical P2P, in addition to potential decreases of the system performance, the superpeer failure cases also forced the normal peers under its responsibility to disconnect from the system. The ultimate goal of our work is to develop a collective rejoin algorithm that provides an efficient mechanism for the normal peers to rejoin to the system once a superpeer failure occurs. We implemented two-layer hierachy architecture, in which nodes with higher capability are placed in the upper layer and organized in a Chord ring. These nodes act as a gateway for the lower layer in which other nodes are grouped. Each group is organized in a star structure, and each member of the group is connected directly to the related gateway node. We expect our proposed architecture and algorithm produces less traffic load than the individual rejoin approach. Thus, the performance degradation caused by the normal peers rejoin process, as an impact of churn, can be minimized.
KW - churn
KW - collective rejoin
KW - hierarchical P2P
KW - pervasive environment
KW - superpeer failure
UR - http://www.scopus.com/inward/record.url?scp=84872179348&partnerID=8YFLogxK
U2 - 10.1109/ComNetSat.2012.6380766
DO - 10.1109/ComNetSat.2012.6380766
M3 - Conference contribution
AN - SCOPUS:84872179348
SN - 9781467308892
T3 - Proceeding - COMNETSAT 2012: 2012 IEEE International Conference on Communication, Networks and Satellite
SP - 6
EP - 10
BT - Proceeding - COMNETSAT 2012
T2 - 2012 IEEE International Conference on Communication, Networks and Satellite, COMNETSAT 2012
Y2 - 12 July 2012 through 14 July 2012
ER -