Yifeng Zhong scite author profile

Abstract.Energy consumption has already become a major challenge to the current Internet. Most researches aim at lowering energy consumption under certain fixed performance constraints. Since trade-offs exist between network performance and energy saving, Internet Service Providers (ISPs) may desire to achieve different Traffic Engineering (TE) goals corresponding to changeable requirements. The major contributions of this paper are twofold: 1) we present an OSPF-based routing mechanism, Routing On Demand (ROD), that considers both performance and energy saving, and 2) we theoretically prove that a set of link weights always exists for each trade-off variant of the TE objective, under which solutions (i.e., routes) derived from ROD can be converted into shortest paths and realized through OSPF. Extensive evaluation results show that ROD can achieve various trade-offs between energy saving and performance in terms of Maximum Link Utilization, while maintaining better packet delay than that of the energy-agnostic TE.

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Can P2P Technology Benefit Eyeball ISPs? A Cooperative Profit Distribution Answer

Zhong

2014

IEEE Trans. Parallel Distrib. Syst.

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Peer-to-Peer (P2P) technology has been promoting the development of Internet applications, like Video on Demand (VoD) and file sharing. However, under the traditional pricing mechanism, the fact that most P2P traffic flows among peers can dramatically decrease the profit of ISPs, who may take actions against P2P and impede the adoption of P2P-assisted applications. So far, there is no proper profit distribution mechanism to solve this problem. In this paper, we develop a mathematical framework to analyze such economic issues. Inspired by the idea from cooperative game theory, we propose a cooperative profit-distribution model based on Nash Bargaining Solution (NBS), in which both eyeball ISPs and Peer-assisted Content Providers (PCPs) form coalitions and compute a fair Pareto point to determine profit distribution. Moreover, we design a fair and feasible mechanism for profit distribution within each coalition and give a model to discuss the potential competition among ISPs. We show that such a cooperative method not only guarantees the fair profit distribution among network participants, but also improves the economic efficiency of the network system; and the potential competition among ISPs will make the network more efficient. This paper systematically studies solutions to unbalanced profit distribution caused by P2P and presents a feasible cooperative method to increase and fairly distribute the profit.

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Internet Resource Pricing Models

Xu¹,

Zhong²,

He³

2014

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Exploring the policy selection of the P2P VoD system: A simulation-based research

Liu

et al. 2014

Peer-to-Peer Netw. Appl.

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Yifeng Zhong

TCP Performance over Mobile Networks in High-Speed Mobility Scenarios

Routing On Demand: Toward the Energy-Aware Traffic Engineering with OSPF

Can P2P Technology Benefit Eyeball ISPs? A Cooperative Profit Distribution Answer

Internet Resource Pricing Models

Exploring the policy selection of the P2P VoD system: A simulation-based research

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