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Modeling a heterogeneous network with tcp connectionsusing fluid flow approximation and queuing theory (2003).
| Content Provider | CiteSeerX |
|---|---|
| Author | Hisamatsu, Hiroyuki Ohsaki, Hiroyuki Murata, Masayuki |
| Abstract | In the current Internet, most of the trac is transmitted by TCP (Transmission Control Protocol). In our previous work, we have proposed a modeling approach for the entire network, including TCP congestion control mechanisms operating at source hosts and the network seen by TCP connections, as a single feedback system. However, our analytic model is limited to a simple network, where TCP connections have the identical propagation delay. In this paper, we therefore extend our analytic approach to a more generic network, where multiple TCP connections are allowed to have dierent propagation delays. We derive the packet loss probability in the network, the throughput and the average round-trip time of each TCP connection in steady state. By presenting several numerical examples, we quantitatively investigate how the fairness among TCP connections is degraded when multiple TCP connections with dierent propagation delays share the single bottleneck link. |
| File Format | |
| Publisher Date | 2003-01-01 |
| Access Restriction | Open |
| Subject Keyword | Tcp Connection Heterogeneous Network Fluid Flow Approximation Multiple Tcp Connection Source Host Generic Network Dierent Propagation Delay Share Single Feedback System Analytic Model Entire Network Identical Propagation Delay Analytic Approach Previous Work Modeling Approach Single Bottleneck Link Dierent Propagation Delay Packet Loss Probability Average Round-trip Time Several Numerical Example Transmission Control Protocol Steady State Simple Network Tcp Congestion Control Current Internet |
| Content Type | Text |
