End-to-end congestion control for the Internet: delays and stability

Author

Johari, Ramesh ; Tan, David Kim Hong

Author_Institution

Stat. Lab., Cambridge Univ., UK

Volume

9

Issue

6

fYear

2001

fDate

12/1/2001 12:00:00 AM

Firstpage

818

Lastpage

832

Abstract

Under the assumption that queueing delays will eventually become small relative to propagation delays, we derive stability results for a fluid flow model of end-to-end Internet congestion control. The theoretical results of the paper are intended to be decentralized and locally implemented: each end system needs knowledge only of its own round-trip delay. Criteria for local stability and rate of convergence are completely characterized for a single resource, single user system. Stability criteria are also described for networks where all users share the same round-trip delay. Numerical experiments investigate extensions to more general networks. Through simulations, we are able to evaluate the relative importance of queueing delays and propagation delays on network stability. Finally, we suggest how these results may be used to design network resources

Keywords

Internet; convergence of numerical methods; delays; queueing theory; stability; telecommunication congestion control; Internet; convergence rate; end-to-end congestion control; fluid flow model; local stability; network resources design; network stability; propagation delays; queueing delays; round-trip delay; single resource system; single user system; stability criteria; Communication system control; Communication system traffic control; Control systems; Fluid flow control; IP networks; Internet; Laboratories; Propagation delay; Stability criteria; TCPIP;

fLanguage

English

Journal_Title

Networking, IEEE/ACM Transactions on

Publisher

ieee

ISSN

1063-6692

Type

jour

DOI

10.1109/90.974534

Filename

974534