Measuring Bottleneck Bandwidth of Targeted Path Segments


Autoria(s): Harfoush, Khaled; Bestavros, Azer; Byers, John
Data(s)

20/10/2011

20/10/2011

31/07/2001

Resumo

Accurate measurement of network bandwidth is crucial for flexible Internet applications and protocols which actively manage and dynamically adapt to changing utilization of network resources. These applications must do so to perform tasks such as distributing and delivering high-bandwidth media, scheduling service requests and performing admission control. Extensive work has focused on two approaches to measuring bandwidth: measuring it hop-by-hop, and measuring it end-to-end along a path. Unfortunately, best-practice techniques for the former are inefficient and techniques for the latter are only able to observe bottlenecks visible at end-to-end scope. In this paper, we develop and simulate end-to-end probing methods which can measure bottleneck bandwidth along arbitrary, targeted subpaths of a path in the network, including subpaths shared by a set of flows. As another important contribution, we describe a number of practical applications which we foresee as standing to benefit from solutions to this problem, especially in emerging, flexible network architectures such as overlay networks, ad-hoc networks, peer-to-peer architectures and massively accessed content servers.

National Science Foundation (ANIR-9986397, CAREER ANIR-0093296)

Identificador

http://hdl.handle.net/2144/1637

Idioma(s)

en_US

Publicador

Boston University Computer Science Department

Relação

BUCS Technical Reports;BUCS-TR-2001-016

Palavras-Chave #End-to-end measurement #Packet-pair #Bottleneck bandwidth #Overlay networks #Content distribution
Tipo

Technical Report