Craig L. Gutterman, G. Zussman, Artur Minakhmetov, Jiakai Yu, Michael Sherman, Tingjun Chen, Shengxiang Zhu, I. Seskar, D. Raychaudhuri, D. Kilper
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引用次数: 3
Abstract
The Cloud-Enhanced Open Software Defined Mobile Wireless Testbed for City-Scale Deployment (COSMOS) platform is a programmable city-scale shared multi-user advanced wireless testbed that is being deployed in West Harlem of New York City [1]. To keep pace with the significantly increased wireless link bandwidth and to effectively integrate the emerging C-RANs, COSMOS is designed to incorporate a fast programmable core network for providing connections across different computing layers. A key feature of COSMOS is its dark fiber based optical x-haul network that enables both highly flexible, user defined network topologies and experimentation directly in the optical physical layer. The optical architecture of COSMOS was presented in [2]. In this abstract, we present the tools and services designed to configure and monitor the performance of optical paths and topologies of the COSMOS testbed. In particular, we present the SDN framework that allows testbed users to implement experiments with application-driven control of optical and data networking functionalities.
COSMOS (Cloud-Enhanced Open Software Defined Mobile Wireless Testbed for City- scale Deployment)平台是一个可编程的城市规模共享多用户高级无线测试平台,目前正在纽约市西哈林区进行部署[1]。为了跟上显著增加的无线链路带宽的步伐,并有效地集成新兴的c - ran, COSMOS被设计成包含一个快速可编程核心网络,以提供跨不同计算层的连接。COSMOS的一个关键特征是其基于暗光纤的光x-haul网络,该网络支持高度灵活的用户自定义网络拓扑和直接在光物理层进行实验。COSMOS的光学结构见文献[2]。在这篇摘要中,我们介绍了用于配置和监控COSMOS测试平台的光路和拓扑性能的工具和服务。特别地,我们提出了SDN框架,该框架允许测试平台用户使用应用程序驱动的光和数据网络功能控制来实现实验。
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