Designing Terminals and Infrastructure Components for Cognitive Wireless Networks

A. Burnic, C. Spiegel, Alex VieBmann, Arjang Hessamian-Alinejad, Andreas Waadt, G. Bruck, P. Jung
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引用次数: 4

Abstract

Cooperation in wireless networks will facilitate a new dimension in the evolution of multimedia communications, setting out from the today's situation with a multitude of communication standards and radio interfaces both in the licensed and the unlicensed domain. In order to pave the way towards cooperative networks, the deployment of cognitive wireless solutions, which will form the communication platforms, will be a hey asset. In the future, we expect to see an increasingly flexible, ad-hoc utilization of the available spectrum in the unlicensed domain and a co-exsitence of communication standards in the licensed bands. In this communication, the authors will illustrate a platform based approach towards cognitive wireless communications. Also, three software defined radio concepts designed by the authors was presented, namely the HAWK (highly adaptable wireless kit), the FALCON (flexible access logic for communication networks), and the MUSTANG (multi-standard single chip transceiver for the next generation), finally, giving an outlook on their wireless optical communication device, termed ARGOS. HAWK, FALCON, MUSTANG and ARGOS form the basis of the authors' cognitive wireless platform, termed PROMETHEUS. The setup of PROMETHEUS and its functionality shall be illustrated.
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认知无线网络终端和基础设施组件设计
无线网络方面的合作将促进多媒体通信发展的一个新层面,从目前在许可和非许可领域中存在大量通信标准和无线电接口的情况出发。为了为协作网络铺平道路,部署将构成通信平台的认知无线解决方案将是一项重要资产。在未来,我们期望看到对非授权域中可用频谱的日益灵活的自组织利用,以及在授权频带中通信标准的共存。在本文中,作者将阐述一种基于平台的认知无线通信方法。此外,介绍了作者设计的三个软件定义无线电概念,即HAWK(高适应性无线套件),FALCON(通信网络的灵活接入逻辑)和MUSTANG(下一代多标准单芯片收发器),最后对他们的无线光通信设备ARGOS进行了展望。HAWK, FALCON, MUSTANG和ARGOS构成了作者称为PROMETHEUS的认知无线平台的基础。将说明PROMETHEUS的设置及其功能。
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