Abstract. A TCP flow is congestion responsive because it reduces its send window upon the appearance of congestion. An aggregate of nonpersistent TCP flows, however, may not be congestion responsive, depending on whether the flow (or session) arrival process reacts to congestion or not. In this paper, we describe a methodology for the passive estimation of traffic congestion responsiveness. The methodology aims to classify every TCP session as either “open-loop ” or “closed-loop”. In the closed-loop model, the arrival of a session depends on the completion of the previous session from the same user. When the network is congested, the arrival of a new session from that user is delayed. On the other hand, in the openloop model, TCP sessions a...
Detailed passive analysis of TCP sender behaviour requires accurate identification of congestion eve...
The Transmission Control Protocol (TCP) has proved to be a reliable transport protocol that has with...
Traffic engineering models based on end-to-end loss probabilities and delays do not scale well to fa...
A traffic aggregate is congestion responsive if it reacts to network congestion by reducing its rat...
Abstract. We focus in this paper on passive traffic measurement techniques that collect traces of TC...
In this paper, we introduce the notion of responsiveness for TCP aggregates and define it as the deg...
Many applications in the Internet use the reliable end-to-end Transmission Control Protocol (TCP) as...
Congestion is a major Internet problem. TCP has evolved in attemptting to deal with this and now emp...
We study the TCP flow arrival process, starting from the aggregated measurement at the TCP flow leve...
Transmission Control Protocol (TCP) carries most of the traffic on the Internet these days. There ar...
Abstract—This paper proposes a purely passive method for inferring a congestion map of a network. Th...
We propose to study computer network traffic as a dynamical system, with the intent of determining h...
The Internet is constantly changing and evolving. In this thesis the behaviour of various aspects of...
The Transmission Control Protocol (TCP) has successfully governed the Internet congestion control fo...
We study the burstiness of TCP flows at the packet level. We aggregate packets into entities we call...
Detailed passive analysis of TCP sender behaviour requires accurate identification of congestion eve...
The Transmission Control Protocol (TCP) has proved to be a reliable transport protocol that has with...
Traffic engineering models based on end-to-end loss probabilities and delays do not scale well to fa...
A traffic aggregate is congestion responsive if it reacts to network congestion by reducing its rat...
Abstract. We focus in this paper on passive traffic measurement techniques that collect traces of TC...
In this paper, we introduce the notion of responsiveness for TCP aggregates and define it as the deg...
Many applications in the Internet use the reliable end-to-end Transmission Control Protocol (TCP) as...
Congestion is a major Internet problem. TCP has evolved in attemptting to deal with this and now emp...
We study the TCP flow arrival process, starting from the aggregated measurement at the TCP flow leve...
Transmission Control Protocol (TCP) carries most of the traffic on the Internet these days. There ar...
Abstract—This paper proposes a purely passive method for inferring a congestion map of a network. Th...
We propose to study computer network traffic as a dynamical system, with the intent of determining h...
The Internet is constantly changing and evolving. In this thesis the behaviour of various aspects of...
The Transmission Control Protocol (TCP) has successfully governed the Internet congestion control fo...
We study the burstiness of TCP flows at the packet level. We aggregate packets into entities we call...
Detailed passive analysis of TCP sender behaviour requires accurate identification of congestion eve...
The Transmission Control Protocol (TCP) has proved to be a reliable transport protocol that has with...
Traffic engineering models based on end-to-end loss probabilities and delays do not scale well to fa...