NeTS: Large: Collaborative Research: Location-Independent Networks: Evaluation Strategies and Studies

NeTS：大型：协作研究：位置无关网络：评估策略和研究

• 批准号: 1413963
• 负责人: Arun Venkataramani
• 金额: $ 70.09万
• 依托单位: University of Massachusetts Amherst
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2014
• 资助国家: 美国
• 起止时间: 2014-10-01 至 2019-09-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1413963&HistoricalAwards=false
• 关键词: NeTS; Large; Collaborative; Research; Location

As the global Internet expands to satisfy the demands and expectations of an ever-increasing fraction of the world's population, profound changes are occurring in its interconnection structure, traffic dynamics, and the economic and political power of different players in the ecosystem. These changes not only impact network engineering and operations, but also present broader challenges for technology investment, future network design, public policy, and scientific study of the Internet itself. And yet, from both scientific and policy perspectives, the evolving ecosystem is largely uncharted territory.Two related transformations of the Internet ecosystem motivate this project: the emergence of Internet exchanges (IXes) as anchor points in the mesh of interconnection, and content providers and Content Delivery Networks (CDNs) as major sources of traffic flowing into the Internet. By some accounts over half the traffic volume in North America now comes from just two content distributors (Youtube and Netflix). This shift constitutes the rise of a new kind of hierarchy in the ecosystem, bringing new constraints on existing players who need to manage traffic on their networks to minimize congestion, resulting in tussles among commercial players as well as between the private sector and regulatory bodies, at the expense of users suffering degraded quality of experience.The goal of this project is to characterize the changing nature of the Internet's topology and traffic dynamics, and to investigate the implications of these changes on network science, architecture, operations, and public policy. The first task is to construct a new type of semantically rich Internet map, which will elucidate the role of IXes in facilitating robust and geographically diverse but complex interdomain connectivity. This map will guide the second task: a measurement study of traffic congestion dynamics induced by evolving peering and traffic management practices of CDNs and ISPs, including methods to detect and localize the congestion to specific points in the network. Data used will include measurements gathered using CAIDA's global active measurement infrastructure Archipelago (Ark), as well as data contributed by industry players for use in validation and refinement of methods.Ultimately, this project will advance the scientific community's understanding of the evolving Internet by developing and applying a more sophisticated model of the physical Internet topology. The inquiry is structured to pursue new methods of analysis and insights into the interaction between CDN dynamics, interconnection at IXes, and network performance. Results, including the sharing of collected and curated data sets, will also inform related fields, including traffic modeling, infrastructure resiliency and protection, network economics, industrial organization, and future network architecture design.Additionally, results will be disseminated via publications, conferences, industry meetings, online lectures, web pages. CAIDA and CSAIL will jointly host annual international interdisciplinary workshops to close the loop between empirical research results, theoretical modeling activities, and policymaking. By providing unbiased data about the evolving Internet ecosystem, the proposed research has the potential to be of great value to Internet users, network operators, and governments.

随着全球互联网不断扩展，以满足世界上越来越多人口的需求和期望，其互连结构、流量动态以及生态系统中不同参与者的经济和政治力量正在发生深刻的变化。 这些变化不仅影响网络工程和运营，而且对技术投资、未来网络设计、公共政策和互联网本身的科学研究提出了更广泛的挑战。 然而，从科学和政策的角度来看，不断发展的生态系统在很大程度上是未知的领域。互联网生态系统的两个相关转变推动了这个项目：互联网交换中心（IX）的出现作为互连网络中的锚点，以及内容提供商和内容提供商。内容交付网络 (CDN) 作为流入互联网的主要流量来源。 据一些统计，北美一半以上的流量现在仅来自两家内容发行商（Youtube 和 Netflix）。这种转变构成了生态系统中一种新的层次结构的兴起，给需要管理网络流量以最大程度地减少拥塞的现有参与者带来了新的限制，导致商业参与者之间以及私营部门和监管机构之间的争斗，该项目的目标是描述互联网拓扑和流量动态变化的性质，并研究这些变化对网络科学、体系结构、运营和公共政策的影响。 第一个任务是构建一种新型的语义丰富的互联网地图，这将阐明 IX 在促进稳健、地理多样化但复杂的域间连接方面的作用。 该图将指导第二项任务：对由 CDN 和 ISP 不断发展的对等互连和流量管理实践引起的流量拥塞动态进行测量研究，包括检测和定位网络中特定点拥塞的方法。 使用的数据将包括使用 CAIDA 的全球主动测量基础设施 Archipelago (Ark) 收集的测量结果，以及行业参与者提供的用于验证和改进方法的数据。最终，该项目将通过开发并应用更复杂的物理互联网拓扑模型。 该调查的目的是寻求新的分析方法和洞察 CDN 动态、IX 互连和网络性能之间的相互作用。 结果，包括共享收集和整理的数据集，还将为相关领域提供信息，包括流量建模、基础设施弹性和保护、网络经济学、产业组织和未来网络架构设计。此外，结果将通过出版物、会议、行业会议、在线讲座、网页。 CAIDA和CSAIL将联合举办年度国际跨学科研讨会，以实现实证研究成果、理论建模活动和政策制定之间的闭环。通过提供有关不断发展的互联网生态系统的公正数据，拟议的研究有可能对互联网用户、网络运营商和政府产生巨大价值。

项目成果

A cross-architectural quantitative evaluation of mobility approaches

移动方法的跨架构定量评估

• 发表时间: 2018-04
• 期刊: Proceedings - IEEE INFOCOM
• 作者: Chaganti, Vasanta;Kurose, Jim;Venkataramani, Arun
• 通讯作者: Venkataramani, Arun