The multiplicative increase multiplicative decrease (MIMD) congestion control algorithm in the form of scalable TCP has been proposed for high speed networks. We study fairness among sessions sharing a common bottleneck link, where one or more sessions use the MIMD algorithm. Losses, or congestion signals, occur when the capacity is reached but could also be initiated before that. Both synchronous as well as asynchronous losses are considered. In the asynchronous case, only one session suffers a loss at a loss instant. Two models are then considered to determine which source looses a packet: a rate dependent model in which the packet loss probability of a session is proportional to its rate at the congestion instant, and the independent los...
Abstract—The multi-homed capability offers a good opportu-nity to explore multipath transmission. To...
Fairness to current Internet traffic, particularly TCP, is an important requirement for new protocol...
We examine the behavior of the Additive-Increase Multiplicative-Decrease (AIMD) congestion control a...
The multiplicative increase multiplicative decrease (MIMD) congestion control algorithm in the form ...
We study in this paper the fairness in throughput among two sessions that share a common bottleneck ...
Proposals to improve the performance of TCP in high speed networks have been recently put forward. E...
An important concern for source-based multicast congestion control algorithms is the loss path multi...
Congestion control is one of the fundamental issues in computer networks. Without proper congestion ...
for Shared Bottleneck Fairness Multi-homed hosts are becoming common and they have multiple paths be...
Consider a network with an arbitrary topology and arbitrary communication delays, in which congestio...
Recently, a TCP-friendly, single-rate multicast congestion control scheme called pgmcc was introduce...
textIn a shared network such as the Internet, end systems should react to congestion by adapting th...
We examine the behavior of the additive-increase multiplicative-decrease (AIMD) congestion control a...
Congestion control is one of the fundamental issues in computer networks. Without proper congestio...
This paper presents a semi-Markov model that evaluates the performance of TCP connections with asymm...
Abstract—The multi-homed capability offers a good opportu-nity to explore multipath transmission. To...
Fairness to current Internet traffic, particularly TCP, is an important requirement for new protocol...
We examine the behavior of the Additive-Increase Multiplicative-Decrease (AIMD) congestion control a...
The multiplicative increase multiplicative decrease (MIMD) congestion control algorithm in the form ...
We study in this paper the fairness in throughput among two sessions that share a common bottleneck ...
Proposals to improve the performance of TCP in high speed networks have been recently put forward. E...
An important concern for source-based multicast congestion control algorithms is the loss path multi...
Congestion control is one of the fundamental issues in computer networks. Without proper congestion ...
for Shared Bottleneck Fairness Multi-homed hosts are becoming common and they have multiple paths be...
Consider a network with an arbitrary topology and arbitrary communication delays, in which congestio...
Recently, a TCP-friendly, single-rate multicast congestion control scheme called pgmcc was introduce...
textIn a shared network such as the Internet, end systems should react to congestion by adapting th...
We examine the behavior of the additive-increase multiplicative-decrease (AIMD) congestion control a...
Congestion control is one of the fundamental issues in computer networks. Without proper congestio...
This paper presents a semi-Markov model that evaluates the performance of TCP connections with asymm...
Abstract—The multi-homed capability offers a good opportu-nity to explore multipath transmission. To...
Fairness to current Internet traffic, particularly TCP, is an important requirement for new protocol...
We examine the behavior of the Additive-Increase Multiplicative-Decrease (AIMD) congestion control a...