Enabling models of Internet eXchange Points for developing contexts

Q1 Economics, Econometrics and Finance Development Engineering Pub Date : 2020-01-01 DOI:10.1016/j.deveng.2020.100057

Diarmuid Ó Briain , David Denieffe , Dorothy Okello , Yvonne Kavanagh

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引用次数: 3

Abstract

In 2009, fibre-optic cables landed on the East coast of Africa, the last major area of the world to be connected to the Internet triggering a decade of Internet development (Graham et al., 2015). During the same period, there has been a general transformation of the Internet from static content to video streaming. Technologies such as Software Defined Networking (SDN) and Network Functions Virtualisation (NFV) are about to reshape the Internet once again. Globally Internet eXchange Points (IXP) have been a key node on the Internet and a central location for Content Delivery Networks (CDN), though in East Africa they have generally been confined to large cities. There is an understanding that if technology hubs are to develop in other cities, the Internet ecosystem, including IXPs, must extend outwards.

This research uses a Proof of Concept (PoC) system design methodology to investigate solutions that containerise IXP functions and develops affordable models for IXPs of various sizes and configurations based on both traditional and software-defined switching paradigms as well as automate the IXP build function. The research argues that it is necessary to develop a national IXP ecosystem by supplementing the national IXP with local IXPs to support economic development outside of the major economic cities of the region. The technology solutions must be used in conjunction with research on the political economy landscape plus optimum deployment to ensure success. This research demonstrates that systems can be designed which are achievable and affordable by exploiting the most suitable model and switching technology for each site. It also determines that software-defined models offer the potential for application development across the IXP.

This research concludes that with a combination of function containerisation and astute model selection it is possible to build an affordable set of IXPs to support multiple technology hubs across a national Internet ecosystem. Proposed systems are discussed in the context of East Africa and testbed results discussed in relation to the optimum system design which can be deployed in any IXP setting.

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为开发环境启用Internet交换点模型

2009年，光纤电缆在非洲东海岸登陆，这是世界上最后一个连接到互联网的主要地区，引发了十年的互联网发展(Graham et al.， 2015)。在同一时期，互联网发生了从静态内容到视频流的普遍转变。软件定义网络(SDN)和网络功能虚拟化(NFV)等技术即将再次重塑互联网。全球互联网交换点(IXP)一直是互联网上的关键节点和内容分发网络(CDN)的中心位置，尽管在东非，它们通常局限于大城市。有一种理解是，如果要在其他城市发展技术中心，包括ixp在内的互联网生态系统必须向外扩展。本研究使用概念验证(PoC)系统设计方法来研究容器化IXP功能的解决方案，并基于传统和软件定义交换范例为各种尺寸和配置的IXP开发可负担的模型，以及自动化IXP构建功能。研究认为，有必要建立一个全国性IXP生态系统，以地方IXP补充全国性IXP，以支持区域主要经济城市以外的经济发展。技术解决方案必须与对政治经济格局的研究以及最佳部署相结合，以确保成功。这项研究表明，通过利用最合适的模型和交换技术，每个站点都可以设计出可实现且负担得起的系统。它还决定了软件定义模型为跨IXP的应用程序开发提供了潜力。这项研究的结论是，结合功能容器化和精明的模式选择，有可能建立一套负担得起的ixp，以支持全国互联网生态系统中的多个技术中心。在东非的背景下讨论了拟议的系统，并讨论了与可在任何IXP设置中部署的最佳系统设计相关的试验台结果。

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来源期刊

Development Engineering Economics, Econometrics and Finance-Economics, Econometrics and Finance (all)

CiteScore

4.90

自引率

0.00%

发文量

审稿时长

31 weeks

期刊介绍： Development Engineering: The Journal of Engineering in Economic Development (Dev Eng) is an open access, interdisciplinary journal applying engineering and economic research to the problems of poverty. Published studies must present novel research motivated by a specific global development problem. The journal serves as a bridge between engineers, economists, and other scientists involved in research on human, social, and economic development. Specific topics include: • Engineering research in response to unique constraints imposed by poverty. • Assessment of pro-poor technology solutions, including field performance, consumer adoption, and end-user impacts. • Novel technologies or tools for measuring behavioral, economic, and social outcomes in low-resource settings. • Hypothesis-generating research that explores technology markets and the role of innovation in economic development. • Lessons from the field, especially null results from field trials and technical failure analyses. • Rigorous analysis of existing development "solutions" through an engineering or economic lens. Although the journal focuses on quantitative, scientific approaches, it is intended to be suitable for a wider audience of development practitioners and policy makers, with evidence that can be used to improve decision-making. It also will be useful for engineering and applied economics faculty who conduct research or teach in "technology for development."