Access Load Balancing with Analogy to Thermal Diffusion for Dynamic P2P File-Sharing Environments
スポンサーリンク
概要
- 論文の詳細を見る
In this paper, we propose a file replication method to achieve load balancing in terms of write access to storage device (“write storage access load balancing” for short) in unstructured peer-to-peer (P2P) file-sharing networks in which the popularity trend of queried files varies dynamically. The proposed method uses a write storage access ratio as a load balance index value in order to stabilize dynamic P2P file-sharing environments adaptively. In the proposed method, each peer autonomously controls the file replication ratio, which is defined as a probability to create the replica of the file in order to uniform write storage access loads in the similar way to thermal diffusion phenomena. Theoretical analysis results show that the behavior of the proposed method actually has an analogy to a thermal diffusion equation. In addition, simulation results reveal that the proposed method has an ability to realize write storage access load balancing in the dynamic P2P file-sharing environments.
著者
-
OHNISHI Kei
Graduate School of Computer Science and Systems Engineering, Kyushu Institute of Technology
-
OIE Yuji
Graduate School of Computer Science and Systems Engineering, Kyushu Institute of Technology
-
UCHIDA Masato
Network Design Research Center, Kyushu Institute of Technology
-
TAKAOKA Masanori
NCOS Laboratory, NEC Communication Systems
関連論文
- Access Load Balancing with Analogy to Thermal Diffusion for Dynamic P2P File-Sharing Environments
- Dynamic and Decentralized Storage Load Balancing with Analogy to Thermal Diffusion for P2P File Sharing
- Evolutionary P2P Networking That Fuses Evolutionary Computation and P2P Networking Together
- Folksonomical P2P File Sharing Networks Using Vectorized KANSEI Information as Search Tags
- Dynamic and Decentralized Storage Load Balancing with Analogy to Thermal Diffusion for P2P File Sharing
- Impact of Censoring on Estimation of Flow Duration Distribution and Its Mitigation Using Kaplan-Meier-Based Method
- TCP Flow Level Performance Evaluation on Error Rate Aware Scheduling Algorithms in Evolved UTRA and UTRAN Networks
- Access Load Balancing with Analogy to Thermal Diffusion for Dynamic P2P File-Sharing Environments
- Evolutionary P2P Networking That Fuses Evolutionary Computation and P2P Networking Together
- QoS-Aware Overlay Routing with Limited Number of Alternative Route Candidates and Its Evaluation(Networking Technologies for Overlay Networks)
- Proactive AP Selection Method Considering the Radio Interference Environment
- A Unified Handover Management Scheme Based on Frame Retransmissions for TCP over WLANs
- Experimental Evaluation of Decision Criteria for WLAN Handover : Signal Strength and Frame Retransmission(Network)
- Identifying Heavy-Hitter Flows from Sampled Flow Statistics(Next Generation Network Management)
- Transport Layer Mobility Management across Heterogeneous Wireless Access Networks(Network)
- New TCP Congestion Control Schemes for Multimodal Mobile Hosts(Terrestrial Radio Communications)
- Decentralized access point selection scheme considering communication characteristics for heterogeneous wireless LANs (情報ネットワーク)
- Hop-Value-Based Query-Packet Forwarding for Pure P2P(Autonomous Decentralized Systems)
- Replication Methods for Load Balancing on Distributed Storages in P2P Networks(Peer-to-Peer Network, New Technologies and their Applications of the Internet III)
- Query-Trail-Mediated Cooperative Behaviors of Peers in Unstructured P2P File Sharing Networks