Mutual Complementarity between Diffusion-Type Flow Control and TCP(Network)
スポンサーリンク
概要
- 論文の詳細を見る
In current IP-based networks, the application of window-based end-to-end flow control, including TCP, to ensure reliable flows is an essential factor. However, since such a flow control is provided by the end hosts, end-to-end control cannot be applied to decision-making in a time-scale shorter than the round-trip delay. We have previously proposed a diffusion-type flow control mechanism to realize the extremely time sensitive flow control that is required for high-speed networks. In this mechanism, each network node manages its own traffic only on the basis of the local information directly available to it, by using predetermined rules. The implementation of decision-making at each node can lead to optimal performance for the whole network. Our previous studies showed that the mechanism works well, by itself, in high-speed networks. However, to apply this mechanism to actual networks, it needs to be able to coexist with other existing protocols. In this paper, we investigate the performance of diffusion-type flow control coexisting with TCP. We show that diffusion-type flow control can coexist with TCP and the two can be complementary. Then, we show that a combination of both controls achieves higher network performance than TCP alone in high-speed networks.
- 一般社団法人電子情報通信学会の論文
- 2006-10-01
著者
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Aida Masaki
Tokyo Metropolitan Univ. Hino‐shi Jpn
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Aida Masaki
Graduate School Of System Design Tokyo Metropolitan University
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Takano Chisa
Ntt Advanced Technol. Corp. (ntt‐at) Musashino‐shi Jpn
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Takano Chisa
Traffic Engineering Division Ntt Advanced Technology Corporation (ntt-at)
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Sugiyama Keita
Graduate School Of System Design Tokyo Metropolitan University
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MURANAKA Kaori
Traffic Engineering Division, NTT Advanced Technology Corporation (NTT-AT)
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Muranaka Kaori
Traffic Engineering Division Ntt Advanced Technology Corporation (ntt-at)
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- Diffusion-Type Autonomous Decentralized Flow Control for End-to-End Flow in High-Speed Networks(Network)
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