Stanislav Shalunov scite author profile

The search for unifying properties of complex networks is popular, challenging, and important. For modeling approaches that focus on robustness and fragility as unifying concepts, the Internet is an especially attractive case study, mainly because its applications are ubiquitous and pervasive, and widely available expositions exist at every level of detail. Nevertheless, alternative approaches to modeling the Internet often make extremely different assumptions and derive opposite conclusions about fundamental properties of one and the same system. Fortunately, a detailed understanding of Internet technology combined with a unique ability to measure the network means that these differences can be understood thoroughly and resolved unambiguously. This article aims to make recent results of this process accessible beyond Internet specialists to the broader scientific community and to clarify several sources of basic methodological differences that are relevant beyond either the Internet or the two specific approaches focused on here (i.e., scale-free networks and highly optimized tolerance networks).complex network ͉ HOT ͉ Internet topology ͉ network design ͉ scale-free network

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A One-way Active Measurement Protocol (OWAMP)

Shalunov¹,

Teitelbaum²,

Karp³

et al. 2006

125

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Packet Reordering Metrics

Morton¹,

Ciavattone²,

Ramachandran³

et al. 2006

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One-way Active Measurement Protocol (OWAMP) Requirements

Shalunov¹,

Teitelbaum²

2004

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With growing availability of good time sources to network nodes, it becomes increasingly possible to measure one-way IP performance metrics with high precision. To do so in an interoperable manner, a common protocol for such measurements is required. This document specifies requirements for a one-way active measurement protocol (OWAMP) standard. The protocol can measure one-way delay, as well as other unidirectional characteristics, such as one-way loss.

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