Improving Robustness of XCP (eXplicit Control Protocol) for Dynamic Traffic
スポンサーリンク
概要
- 論文の詳細を見る
In this paper, we reveal inherent robustness issues of XCP (eXplicit Control Protocol), and propose extensions to XCP for increasing its robustness. XCP has been proposed as an efficient transport-layer protocol for wide-area and high-speed network. XCP is a transport-layer protocol that performs congestion control based on explicit feedback from routers. In the literature, many performance studies of XCP have been performed. However, the effect of traffic dynamics on the XCP performance has not been fully investigated. In this paper, through simulation experiments, we first show that XCP has the following problems: (1) the bottleneck link utilization is lowered against XCP traffic dynamics, and (2) operation of XCP becomes unstable in a network with both XCP and non-XCP traffic. We then propose XCP-IR (XCP with Increased Robustness) that operates efficiently even for dynamic XCP and non-XCP traffic.
- (社)電子情報通信学会の論文
- 2010-11-01
著者
-
Ohsaki Hiroyuki
Graduate School Of Engineering Science Osaka University
-
Imase Makoto
Graduate School Of Information Science And Technology Osaka University
-
SAKUMOTO Yusuke
Graduate School of Information Science and Technology, Osaka University
-
Sakumoto Yusuke
Graduate School Of Information Science And Technology Osaka University
-
Ohsaki Hiroyuki
The Graduate School Of Information Science And Technology Osaka University
-
IMASE Makoto
the Graduate School of Information Science and Technology, Osaka University
関連論文
- Estimation of Cell Membrane Permeability and Intracellular Diffusion Coefficient of Human Gray Matter
- Stability Analysis of XCP (eXplicit Control Protocol) with Heterogeneous Flows
- Delay Performance Analysis on Ad-Hoc Delay Tolerant Broadcast Network Applied to Vehicle-to-Vehicle Communication
- SB-6-5 An Application of System Identification to Modeling End-to-End Packet Delay Dynamics of the Internet
- A Study of Control Plane Stability with Retry Traffic : Comparison of Hard- and Soft-State Protocols
- Scalable and Efficient Ant-Based Routing Algorithm for Ad-Hoc Networks(Network)
- Estimating Node Characteristics from Topological Structure of Social Networks
- PID Congestion Control in ATM with Propagation Delay
- Hybrid Path Allocation Scheme for Multilayer Networks
- Improving Robustness of XCP (eXplicit Control Protocol) for Dynamic Traffic
- GridFTP-APT : Automatic Parallelism Tuning Mechanism for GridFTP in Long-Fat Networks
- Adaptive Timer-Based Countermeasures against TCP SYN Flood Attacks
- Performance of Thorup's Shortest Path Algorithm for Large-Scale Network Simulation
- Proposal for Autonomous Decentralized Structure Formation Based on Local Interaction and Back-Diffusion Potential
- Automatic Parallelism Tuning Mechanism for Heterogeneous IP-SAN Protocols in Long-fat Networks
- Lightweight and Distributed Connectivity-Based Clustering Derived from Schelling's Model
- Analysis of Blacklist Update Frequency for Countering Malware Attacks on Websites
- Evaluations and Analysis of Malware Prevention Methods on Websites
- A Method for Accelerating Flow-level Network Simulation with Low-pass Filtering of Fluid Models