Add to ORKGWe consider a single-link single-source network with FAST TCP source, and propose a static approximation of queuing delay dynamics at the link. The static approximation turns out to be a form with network feedback delay, which enables to analyze FAST TCP reflecting the effect of network feedback delay. Based on a continuous-time dynamic model of FAST TCP, we achieve the boundedness of window size and a sufficient condition for global asymptotic stability. The simulation results illustrate the validity of the sufficient condition for global asymptotic stability
We address the stability property of the FAST TCP congestion control algorithm. Based on a continuou...
Abstract — A link model which captures the queue dynamics when congestion windows of TCP sources cha...
A link model which captures the queue dynamics when congestion windows of TCP sources change was rec...
We consider a single-link single-source network with FAST TCP source, and propose a static approxima...
We consider a single-link multi-source network with the FAST TCP sources. We propose a continuous-ti...
We consider a single-link multi-source network with the FAST TCP sources. We propose a continuous-ti...
In this letter, we study the global asymptotic stability of FAST TCP in the presence of network feed...
In this letter, we study the global asymptotic stability of FAST TCP in the presence of network feed...
We introduce a discrete-time model of FAST TCP that fully captures the effect of self-clocking and c...
We introduce a discrete-time model of FAST TCP that fully captures the effect of self-clocking and c...
We introduce a discrete-time model of FAST TCP that fully captures the effect of self-clocking and c...
We discuss the modelling of FAST TCP and prove four stability results. Using the traditional continu...
This paper studies the stability of FAST TCP using a continuous time model of a single-link single-s...
This paper presents a link model which captures the queue dynamics when congestion windows of TCP so...
Abstract — This paper studies the stability of FAST TCP using a continuous time model of a single-li...
We address the stability property of the FAST TCP congestion control algorithm. Based on a continuou...
Abstract — A link model which captures the queue dynamics when congestion windows of TCP sources cha...
A link model which captures the queue dynamics when congestion windows of TCP sources change was rec...
We consider a single-link single-source network with FAST TCP source, and propose a static approxima...
We consider a single-link multi-source network with the FAST TCP sources. We propose a continuous-ti...
We consider a single-link multi-source network with the FAST TCP sources. We propose a continuous-ti...
In this letter, we study the global asymptotic stability of FAST TCP in the presence of network feed...
In this letter, we study the global asymptotic stability of FAST TCP in the presence of network feed...
We introduce a discrete-time model of FAST TCP that fully captures the effect of self-clocking and c...
We introduce a discrete-time model of FAST TCP that fully captures the effect of self-clocking and c...
We introduce a discrete-time model of FAST TCP that fully captures the effect of self-clocking and c...
We discuss the modelling of FAST TCP and prove four stability results. Using the traditional continu...
This paper studies the stability of FAST TCP using a continuous time model of a single-link single-s...
This paper presents a link model which captures the queue dynamics when congestion windows of TCP so...
Abstract — This paper studies the stability of FAST TCP using a continuous time model of a single-li...
We address the stability property of the FAST TCP congestion control algorithm. Based on a continuou...
Abstract — A link model which captures the queue dynamics when congestion windows of TCP sources cha...
A link model which captures the queue dynamics when congestion windows of TCP sources change was rec...