Add to ORKGThis paper presents a model of the TCP Vegas congestion control mechanism as a distributed optimization algorithm. Doing so has three important benefits. First, it helps us gain a fundamental understanding of why TCP Vegas works, and an appreciation of its limitations. Second, it allows us to prove that Vegas stabilizes at a weighted proportionally fair allocation of network capacity when there is sufficient buffering in the network. Third, it suggests how we might use explicit feedback to allow each Vegas source to determine the optimal sending rate when there is insufficient buffering in the network. We present simulation results that validate our conclusions
[[abstract]]TCP Vegas detects network congestion in the early stage and successfully prevents period...
[[abstract]]Many studies have shown that Vegas TCP has a better throughput and stability than Reno T...
Abstract — TCP Vegas is the congestion avoidance algorithm and utilizes the bandwidth more efficient...
This paper presents a model of the TCP Vegas congestion control mechanism as a distributed optimizat...
This paper presents a model of the TCP Vegas congestion control mechanism as a distributed optimizat...
This paper presents a model of the TCP Vegas congestion control mechanism as a distributed optimizat...
This paper presents a model of the TCP Vegas congestion control mechanism as a distributed optimiza...
We view congestion control as a distributed primal--dual algorithm carried out by sources and links ...
transfer services in packed-switched networks. TCP (Transmission Control Protocol), a sort of feedba...
A feedback-based congestion control mechanism is essential to realize an efficient data transfer ser...
We propose a duality model of end-to-end congestion control and apply it to understanding the equili...
We propose a duality model of end-to-end congestion control and apply it to understand the equilibri...
We propose a duality model of end-to-end congestion control and apply it to understanding the equili...
TCP Vegas proposed a mechanism to improve TCP congestion control in the Internet. However, Vegas exh...
TCP Vegas was introduced in 1994 [5] as an alternative to TCP Reno. Unlike Reno (or its variants suc...
[[abstract]]TCP Vegas detects network congestion in the early stage and successfully prevents period...
[[abstract]]Many studies have shown that Vegas TCP has a better throughput and stability than Reno T...
Abstract — TCP Vegas is the congestion avoidance algorithm and utilizes the bandwidth more efficient...
This paper presents a model of the TCP Vegas congestion control mechanism as a distributed optimizat...
This paper presents a model of the TCP Vegas congestion control mechanism as a distributed optimizat...
This paper presents a model of the TCP Vegas congestion control mechanism as a distributed optimizat...
This paper presents a model of the TCP Vegas congestion control mechanism as a distributed optimiza...
We view congestion control as a distributed primal--dual algorithm carried out by sources and links ...
transfer services in packed-switched networks. TCP (Transmission Control Protocol), a sort of feedba...
A feedback-based congestion control mechanism is essential to realize an efficient data transfer ser...
We propose a duality model of end-to-end congestion control and apply it to understanding the equili...
We propose a duality model of end-to-end congestion control and apply it to understand the equilibri...
We propose a duality model of end-to-end congestion control and apply it to understanding the equili...
TCP Vegas proposed a mechanism to improve TCP congestion control in the Internet. However, Vegas exh...
TCP Vegas was introduced in 1994 [5] as an alternative to TCP Reno. Unlike Reno (or its variants suc...
[[abstract]]TCP Vegas detects network congestion in the early stage and successfully prevents period...
[[abstract]]Many studies have shown that Vegas TCP has a better throughput and stability than Reno T...
Abstract — TCP Vegas is the congestion avoidance algorithm and utilizes the bandwidth more efficient...