先进无线研究平台:帮助定义新的边缘计算范式

A. Gosain
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引用次数: 8

摘要

先进无线研究平台(PAWR)计划[1]旨在实现由美国学术和工业无线研究界构想并与当地社区合作部署的跨设备、通信技术、网络、系统和服务的实验性无线通信研究。PAWR旨在加速无线创新生态系统,从而增强宽带连接;支持新兴的物联网(IoT)、边缘计算和异构无线连接技术。PAWR计划下的每个研究平台都将通过支持地理大小、技术多样性和代表小城市/社区的用户密度来实现大规模实验。从芯片制造商到网络公司,从软件公司到应用程序开发商,再到垂直技术提供商和用户,业界正在投入大量精力,“从科学实验”转向开发边缘计算技术的用例。这需要从根本上重新思考计算和网络架构,因为它们可能会破坏现有的商业模式,重塑行业格局。本次演讲详细介绍了由前两个平台开发的边缘计算生态系统;COSMOS[2]和POWDER[3]。我们展示了来自无线电客户端、运输X-Haul、近边缘云和核心云的系统架构和组件,以便在PAWR平台上通过边缘AI、智慧城市和机器视觉、AR/VR和汽车边缘(安全、导航、自动化+信息娱乐)快速开发和测试物联网安全等用例。
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Platforms for Advanced Wireless Research: Helping Define a New Edge Computing Paradigm
The Platforms for Advanced Wireless Research (PAWR) program [1] aims to enable experimental wireless communications research across devices, communication techniques, networks, systems, and services conceived by the US academic and industrial wireless research community and deployed in partnership with local communities. PAWR seeks to accelerate the wireless innovation ecosystem, thereby enhancing broadband connectivity; enabling the emerging Internet of Things (IoT), edge computing and heterogeneous wireless connectivity technologies. Each research platform conceived under the PAWR program will enable at-scale experimentation by supporting the geographic size, technical diversity, and user density representative of a small city/community. From chipmakers to networking companies to software companies to application developers to vertical technology providers and users, the industry is devoting significant efforts to "moving past science experiments" into developing use cases for edge computing technologies. This calls for fundamental rethinking of computing and networking architectures that can disrupt existing business models and reshape industry landscapes. This talk details the edge computing ecosystem developed by the first two platforms; COSMOS [2] and POWDER [3]. We present the system architecture and components from radio clients, transport X-Haul, near edge cloud, and core cloud to rapidly develop and test Use-cases such as IoT Security via Edge AI, Smart City and Machine Vision, AR/VR and Automotive Edge (safety, navigation, automation + infotainment) on PAWR Platforms.
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Care to Share?: An Empirical Analysis of Capacity Enhancement by Sharing at the Edge Session details: Topics in Edge Computing Session details: Mobile Edge Computing Session details: Caching Networks Proceedings of the 2018 on Technologies for the Wireless Edge Workshop
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