Demo: D2D Rescue of Overloaded Cellular Channels

Proceedings of the 13th Annual International Conference on Mobile Systems, Applications, and Services Pub Date : 2015-05-18 DOI:10.1145/2742647.2745920

F. Benbadis, Filippo Rebecchi, Florian Cosnier, Matteo Sammarco, M. Amorim, V. Conan

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引用次数: 1

Abstract

Mobile data traffic is set to triple in three years from now according to Cisco. This trend is a real challenge for operators since wireless capacity is bounded. To boost network capacity further, operators think about paradigm-shifting solutions to relieve their infrastructures. Recently, data offloading received increasing attention from the research community. Operators may leverage unused bandwidth across different technologies to shift part of the traffic onto less critical infrastructure (e.g., through Wi-Fi access points). In a further evolution, they can also benefit from the widespread diffusion of smart mobile devices with multiple communication interfaces. Users become the heart of the offloading strategy by employing multi-hop opportunistic communications to improve content dissemination, while reducing the load on the wireless infrastructure. We propose an architecture that takes advantage of the latest advances in opportunistic networking to achieve efficient traffic offloading. In this approach, terminals are under continuous control of the operator - the cellular infrastructure serves as a control channel to track data dissemination. The demonstration builds on DROiD [2] as injection strategy, and Epics [1] to distribute data opportunistically.

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演示:D2D援救超载的蜂窝信道

据思科(Cisco)称，移动数据流量将在三年内增长两倍。这种趋势对运营商来说是一个真正的挑战，因为无线容量是有限的。为了进一步提高网络容量，运营商正在考虑范式转换解决方案，以减轻基础设施的负担。近年来，数据卸载越来越受到研究界的关注。运营商可以利用不同技术之间未使用的带宽，将部分流量转移到不那么关键的基础设施上(例如，通过Wi-Fi接入点)。在进一步的发展中，他们还可以从具有多个通信接口的智能移动设备的广泛传播中受益。通过使用多跳机会通信来改善内容传播，同时减少无线基础设施的负载，用户成为卸载策略的核心。我们提出了一种架构，利用机会网络的最新进展来实现有效的流量分流。在这种方法中，终端处于运营商的持续控制之下——蜂窝基础设施作为跟踪数据传播的控制通道。该演示以DROiD[2]为注入策略，以epic[1]为机会分发数据。

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 of the 13th Annual International Conference on Mobile Systems, Applications, and Services

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