On the interaction between overlay routing and underlay routing

Proceedings IEEE 24th Annual Joint Conference of the IEEE Computer and Communications Societies. Pub Date : 2005-03-13 DOI:10.1109/INFCOM.2005.1498539

Yong Liu, Honggang Zhang, W. Gong, D. Towsley

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引用次数: 127

Abstract

In this paper, we study the interaction between overlay routing and traffic engineering (TE) in a single autonomous system (AS). We formulate this interaction as a two-player non-cooperative non-zero sum game, where the overlay tries to minimize the delay of its traffic and the TE's objective is to minimize network cost. We study a Nash routing game with best-reply dynamics, in which the overlay and TE have equal status, and take turns to compute their optimal strategies based on the response of the other player in the previous round. We prove the existence, uniqueness and global stability of Nash equilibrium point (NEP) for a simple network. For general networks, we show that the selfish behavior of an overlay can cause huge cost increases and oscillations to the whole network. Even worse, we have identified cases, both analytically and experimentally, where the overlay's cost increases as the Nash routing game proceeds even though the overlay plays optimally based on TE's routing at each round. Experiments are performed to verify our analysis.

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论覆盖路由与底层路由的相互作用

本文研究了单个自治系统(AS)中覆盖路由与流量工程(TE)之间的相互作用。我们将这种交互描述为两方非合作非零和博弈，其中覆盖层试图最小化其流量的延迟，而TE的目标是最小化网络成本。我们研究了一个具有最佳应答动态的纳什路由博弈，其中覆盖和TE具有同等的地位，并根据前一轮其他参与人的响应轮流计算他们的最优策略。我们证明了一个简单网络的纳什平衡点(NEP)的存在唯一性和全局稳定性。对于一般网络，我们证明了覆盖层的自私行为会导致整个网络的巨大成本增加和振荡。更糟糕的是，我们已经通过分析和实验确定了一些情况，其中覆盖的成本随着纳什路由博弈的进行而增加，即使覆盖在每轮中基于TE的路由发挥最佳效果。实验验证了我们的分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings IEEE 24th Annual Joint Conference of the IEEE Computer and Communications Societies.

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