We study a system of multiple routers traversed by multiple TCP connections using TCP New Reno, CUBIC and Compound. More than one router may be congested. To analyze this system we will use earlier theoretical models of TCP New Reno and CUBIC but develop a new model of TCP Compound experiencing random packet losses and queuing delays. We model the router queues as M/GI/1 queues with arrival rates controlled by TCP window flow control. We also look at an alternate approach assuming proportional fairness of TCP to find the throughputs of the multiple TCP connections. These approximations are validated through comparison with ns-2 simulations
We revisit the problem of link capacity under-utilisation in TCP Congestion Control (TCP-CC) when wo...
Abstract—The paper presents a technique for computing the individual throughputs and the average que...
Abstract: We study the stability and performance of a system involving several TCP connections passi...
We study a system of multiple routers traversed by multiple TCP connections using TCP New Reno, CUBI...
We consider a multihop network when the flows may be using TCP Reno, CUBIC or Compound. We study its...
Different from previous TCP (transmission control program) modeling works, this paper presents a mor...
We develop a Markov model for a TCP CUBIC connection. Next we use it to obtain approximate expressio...
Abstract-We develop a Markov model for a TCP CUBIC connection. Next we use it to obtain approximate ...
As the most widely used reliable transport in today’s In-ternet, TCP has been extensively studied in...
As the most widely used reliable transport in today's Internet, TCP has been extensively studied in...
Scalable TCP (STCP) has been proposed a congestion control algorithm for high speed networks. We pre...
MultiPath TCP is a recent TCP extension that allows the spreading of data on several paths. While th...
Abstract—In this paper, we present an accurate analytical model for transport control protocol (TCP)...
This paper studies TCP performance focusing on the mean flow transfer delay and the average number o...
In this paper we develop a fluid model for TCP sources that share a bottleneck router. The model all...
We revisit the problem of link capacity under-utilisation in TCP Congestion Control (TCP-CC) when wo...
Abstract—The paper presents a technique for computing the individual throughputs and the average que...
Abstract: We study the stability and performance of a system involving several TCP connections passi...
We study a system of multiple routers traversed by multiple TCP connections using TCP New Reno, CUBI...
We consider a multihop network when the flows may be using TCP Reno, CUBIC or Compound. We study its...
Different from previous TCP (transmission control program) modeling works, this paper presents a mor...
We develop a Markov model for a TCP CUBIC connection. Next we use it to obtain approximate expressio...
Abstract-We develop a Markov model for a TCP CUBIC connection. Next we use it to obtain approximate ...
As the most widely used reliable transport in today’s In-ternet, TCP has been extensively studied in...
As the most widely used reliable transport in today's Internet, TCP has been extensively studied in...
Scalable TCP (STCP) has been proposed a congestion control algorithm for high speed networks. We pre...
MultiPath TCP is a recent TCP extension that allows the spreading of data on several paths. While th...
Abstract—In this paper, we present an accurate analytical model for transport control protocol (TCP)...
This paper studies TCP performance focusing on the mean flow transfer delay and the average number o...
In this paper we develop a fluid model for TCP sources that share a bottleneck router. The model all...
We revisit the problem of link capacity under-utilisation in TCP Congestion Control (TCP-CC) when wo...
Abstract—The paper presents a technique for computing the individual throughputs and the average que...
Abstract: We study the stability and performance of a system involving several TCP connections passi...