NeTS: JUNO: Collaborative Research: Location-Based Forwarding and ID-Based Routing (LORIF) for the Future Internet

NetS：JUNO：协作研究：未来互联网的基于位置的转发和基于 ID 的路由 (LORIF)

• 批准号: 1402594
• 负责人: Lixin Gao
• 金额: $ 24.6万
• 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: 2014-04-01 至 2018-03-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1402594&HistoricalAwards=false
• 关键词: NeTS; JUNO; Collaborative; Research; Location

Today's Internet connects more and more devices. It has been predicted that by 2020, 50 billion "smart" embedded devices will be connected to the Internet. As the address space is nearly exhausted, the increasing users, applications, services, and devices pose a great demand on the Internet. At the same time, Internet users expect to have any information/service available at their fingertips. This exacerbates the need for a highly available and scalable Internet.The project aims to meet the scalability and reliability demands of diverse applications, services and trillions of devices. The proposed architecture, referred to as LOcation-based Routing and ID-based Forwarding or LORIF, supports data forwarding based on the ID of a destination host, while maintaining routes based on the topological locations of the end host. Each host may have multiple locations representing its topological identity. Through a novel service for mapping host ID to network location(s), LORIF enables the control plane to scaleably exploit path diversity, while at the same time, facilitating data plane to improvements in end-to-end reliability.LORIF brings significant benefits to users and the society by enhancing the scalability and reliability of our communication infrastructure. This project brings together an international team of researchers from diverse and complimentary backgrounds. Such a collaboration enables the feasibility of deploying the testbed across the continents, and enhances the odds of adoption in the future. This project will train graduate and undergraduate students in network architecture design and testbed development.

当今的互联网连接越来越多的设备。据预测，到2020年，嵌入式设备将连接到互联网。由于地址空间几乎耗尽，增加的用户，应用程序，服务和设备对互联网提出了巨大的需求。同时，互联网用户期望在触手可及的情况下提供任何信息/服务。这加剧了对高度可用且可扩展的互联网的需求。该项目旨在满足各种应用，服务和数万亿个设备的可扩展性和可靠性需求。所提出的架构（称为基于位置的路由和基于ID的转发或Lorif）基于目标主机的ID支持数据转发，同时根据最终主机的拓扑位置维护路线。每个主机可能具有多个代表其拓扑身份的位置。通过将主机ID映射到网络位置的新型服务，Lorif可以使控制平面可缩小利用路径多样性，同时促进数据平面以改善端到端可靠性。lorif通过我们通信基础结构的可扩展性和可靠性为用户和社会带来了可观的好处。 该项目汇集了来自不同背景和免费背景的国际研究人员团队。这样的协作使得在整个大陆上部署测试床的可行性，并增强了未来采用的几率。 该项目将在网络建筑设计和测试床开发领域培训研究生和本科生。