Abstract — Next generation networks with large bandwidth and long delay pose a major challenge to TCP performance, especially during the startup period. In this paper we evaluate the performance of TCP Reno/Newreno, Vegas and Hoe’s modification in large bandwidth delay networks. We propose a modified Slow-start mechanism, called Adaptive Start (AStart), to improve the startup performance in such networks. When a connection initially begins or re-starts after a coarse timeout, Astart adaptively and repeatedly resets the Slow-start Threshold (ssthresh) based on an eligible sending rate estimation mechanism proposed in TCP Westwood. By adapting to network conditions during the startup phase, a sender is able to grow the congestion window (cwn...
Web browsing is characterized by short and bursty data transfers interspersed by idle periods. The T...
With most internet connections being short–lived (i.e. ~10 segments), it is very tempting to enlarge...
The performance of many networking protocols is dependent on a handful of tuning parameters. Howeve...
Abstract — Next generation networks with large bandwidth and long delay pose a major challenge to TC...
Next generation networks with large bandwidth and long delay pose a major challenge to TCP performan...
Measurement shows that 85% of TCP flows in the internet are short-lived flows that stay most of thei...
Abstract — Slow Start is a technique to probe for unknown and time-varying available bandwidth of a ...
Abstract—With the rapid expansion of the Internet, it has become possible for end hosts that are sep...
TCP Slow Start exponentially increases the congestion window size to detect the proper congestion wi...
[[abstract]]In this article, we present a new slow-start variant, which improves the throughput of T...
While TCP is capable of adapting its data rate to almost any capacity, it has long been known that T...
The transmission control protocol (TCP) Friendly Rate Control (TFRC) protocol emulates a TCP-like sl...
Abstract — This paper presents a new variant of Slow-start, called Smooth-start, which provides a sm...
traditional TCP congestion control scheme often yields limited performance due to its conservative S...
Ponencia presentada en: Proceedings of IEEE Global Information Infrastructure and Networking Symposi...
Web browsing is characterized by short and bursty data transfers interspersed by idle periods. The T...
With most internet connections being short–lived (i.e. ~10 segments), it is very tempting to enlarge...
The performance of many networking protocols is dependent on a handful of tuning parameters. Howeve...
Abstract — Next generation networks with large bandwidth and long delay pose a major challenge to TC...
Next generation networks with large bandwidth and long delay pose a major challenge to TCP performan...
Measurement shows that 85% of TCP flows in the internet are short-lived flows that stay most of thei...
Abstract — Slow Start is a technique to probe for unknown and time-varying available bandwidth of a ...
Abstract—With the rapid expansion of the Internet, it has become possible for end hosts that are sep...
TCP Slow Start exponentially increases the congestion window size to detect the proper congestion wi...
[[abstract]]In this article, we present a new slow-start variant, which improves the throughput of T...
While TCP is capable of adapting its data rate to almost any capacity, it has long been known that T...
The transmission control protocol (TCP) Friendly Rate Control (TFRC) protocol emulates a TCP-like sl...
Abstract — This paper presents a new variant of Slow-start, called Smooth-start, which provides a sm...
traditional TCP congestion control scheme often yields limited performance due to its conservative S...
Ponencia presentada en: Proceedings of IEEE Global Information Infrastructure and Networking Symposi...
Web browsing is characterized by short and bursty data transfers interspersed by idle periods. The T...
With most internet connections being short–lived (i.e. ~10 segments), it is very tempting to enlarge...
The performance of many networking protocols is dependent on a handful of tuning parameters. Howeve...