Diffusion-Type Autonomous Decentralized Flow Control for Multiple Flows(Network)
スポンサーリンク
概要
- 論文の詳細を見る
We have proposed a diffusion-type flow control mechanism to achieve the extremely time-sensitive flow control required for high-speed networks. In this mechanism, each node in a network manages its local traffic flow only on the basis of the local information directly available to it, by using predetermined rules. In this way, the implementation of decision-making at each node can lead to optimal performance for the whole network. Our previous studies concentrated on the flow control for a single flow. In this paper, we propose a diffusion-type flow control mechanism for multiple flows. The proposed scheme enables a network to quickly recover from a state of congestion and to achieve fairness among flows.
- 社団法人電子情報通信学会の論文
- 2007-01-01
著者
-
Aida Masaki
Graduate School Of System Design Tokyo Metropolitan University
-
Takano Chisa
Traffic Engineering Division Ntt Advanced Technology Corporation (ntt-at):graduate School Of System
-
Takano Chisa
Traffic Engineering Division Ntt Advanced Technology Corporation (ntt-at)
関連論文
- Structures of Human Relations and User-Dynamics Revealed by Traffic Data(Human Communication I)
- A Study of Control Plane Stability with Retry Traffic : Comparison of Hard- and Soft-State Protocols
- Improvement of Dependability against Node Capture Attacks for Wireless Sensor Networks
- Autonomous Decentralized Flow Control in High-Speed Networks with Inhomogeneous Configurations(Network)
- Stability and Adaptability of Autonomous Decentralized Flow Control in High-Speed Networks(Network Control and Management)(Assurance Systems and Networks)
- Diffusion-Type Autonomous Decentralized Flow Control for Multiple Flows(Network)
- Parameter Design for Diffusion-Type Autonomous Decentralized Flow Control
- Mutual Complementarity between Diffusion-Type Flow Control and TCP(Network)
- Diffusion-Type Autonomous Decentralized Flow Control for End-to-End Flow in High-Speed Networks(Network)
- Using a Renormalization Group to Create Ideal Hierarchical Network Architecture with Time Scale Dependency
- Adaptive Timer-Based Countermeasures against TCP SYN Flood Attacks
- On Optimal Magnitude of Fluctuations in Probe Packet Arrival Intervals