We examine the behavior of the Additive-Increase Multiplicative-Decrease (AIMD) congestion control algorithm. We present a variant of a recently proposed matrix model that allows us to obtain previous results for competition via a single bottleneck link. We then extend these results to the case of multiple bottleneck links paying particular attention to some aspects of fairness and convergence properties for multiple bottleneck systems. We examine both the synchronous (deterministic) and asynchronous (stochastic) cases. A simple simulation example illustrates the results
In this paper we study communication networks that employ drop-tail queueing and Additive-Increase M...
Congestion control is one of the fundamental issues in computer networks. Without proper congestio...
Problem statement: As the Internet becomes increasingly heterogeneous, the issue of congestion contr...
We examine the behavior of the Additive-Increase Multiplicative-Decrease (AIMD) congestion control a...
We examine the behavior of the additive-increase multiplicative-decrease (AIMD) congestion control a...
We consider a linear algebraic model of the Additive-Increase Multiplicative-Decrease congestion con...
for Shared Bottleneck Fairness Multi-homed hosts are becoming common and they have multiple paths be...
We study in this paper the fairness in throughput among two sessions that share a common bottleneck ...
The multiplicative increase multiplicative decrease (MIMD) congestion control algorithm in the form ...
Abstract—We study communication networks that employ drop-tail queueing and Additive-Increase Multi...
We study the interaction between the AIMD (Additive Increase Multiplicative Decrease) multi-socket c...
We present a simplied model of a network of TCP-like sources that compete for a shared bandwidth. We...
Congestion control is one of the fundamental issues in computer networks. Without proper congestion ...
The additive increase multiplicative decrease (AIMD) algorithm, that is commonly used for congestion...
We study the interaction between the AIMD (Additive Increase Multiplicative Decrease) congestion con...
In this paper we study communication networks that employ drop-tail queueing and Additive-Increase M...
Congestion control is one of the fundamental issues in computer networks. Without proper congestio...
Problem statement: As the Internet becomes increasingly heterogeneous, the issue of congestion contr...
We examine the behavior of the Additive-Increase Multiplicative-Decrease (AIMD) congestion control a...
We examine the behavior of the additive-increase multiplicative-decrease (AIMD) congestion control a...
We consider a linear algebraic model of the Additive-Increase Multiplicative-Decrease congestion con...
for Shared Bottleneck Fairness Multi-homed hosts are becoming common and they have multiple paths be...
We study in this paper the fairness in throughput among two sessions that share a common bottleneck ...
The multiplicative increase multiplicative decrease (MIMD) congestion control algorithm in the form ...
Abstract—We study communication networks that employ drop-tail queueing and Additive-Increase Multi...
We study the interaction between the AIMD (Additive Increase Multiplicative Decrease) multi-socket c...
We present a simplied model of a network of TCP-like sources that compete for a shared bandwidth. We...
Congestion control is one of the fundamental issues in computer networks. Without proper congestion ...
The additive increase multiplicative decrease (AIMD) algorithm, that is commonly used for congestion...
We study the interaction between the AIMD (Additive Increase Multiplicative Decrease) congestion con...
In this paper we study communication networks that employ drop-tail queueing and Additive-Increase M...
Congestion control is one of the fundamental issues in computer networks. Without proper congestio...
Problem statement: As the Internet becomes increasingly heterogeneous, the issue of congestion contr...