Modeling multi-path routing and congestion control under FIFO and fair queuing

Author

Muscariello, Luca ; Perino, Diego

Author_Institution

Orange Labs., Orange, France

fYear

2009

fDate

20-23 Oct. 2009

Firstpage

360

Lastpage

363

Abstract

Multi-path routing is a valuable on-line technique to deal with unpredictable and variable traffic patters, mostly for intra-domain TE, multi-homing, wireless mesh networks, metropolitan access networks, and has been shown efficient for a large spectrum of future traffic scenarios. In this paper we analyze the performance of MIRTO, TEXCP and TRUMP, three recently proposed multi-path routing algorithms. Modeling of such algorithms is performed through fluid models, based on ordinary differential equations (ODEs). On a US-like backbone network, with and without in-network fair queuing schedulers, TEXCP and TRUMP show faster convergence times while MIRTO, that relies on simpler feedbacks, consumes less network resources.

Keywords

differential equations; multipath channels; queueing theory; telecommunication congestion control; telecommunication network routing; FIFO queuing; MIRTO; TEXCP; TRUMP; US-like backbone network; congestion control; fair queuing; intradomain TE; multihoming; multipath routing; ordinary differential equations; variable traffic patters; Algorithm design and analysis; Communication system traffic control; Convergence; Differential equations; Performance analysis; Routing; Spine; Tellurium; Traffic control; Wireless mesh networks;

fLanguage

English

Publisher

ieee

Conference_Titel

Local Computer Networks, 2009. LCN 2009. IEEE 34th Conference on

Conference_Location

Zurich

Print_ISBN

978-1-4244-4488-5

Electronic_ISBN

978-1-4244-4487-8

Type

conf

DOI

10.1109/LCN.2009.5355114

Filename

5355114