C2net:认知无线自组织网络的跨层服务质量(QoS)体系结构

A.K.-L. Yau, P. Komisarczuk, Paul D. Teal
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引用次数: 7

摘要

认知无线电(CR)通过动态适应局部频谱的可用性,提高了整个无线电频谱的利用率。在CR网络中,未授权用户或次要用户(su)可以在授权用户或主要用户(PU)拥有的未充分利用的频谱中运行,条件是PU遇到可接受的干扰水平。认知无线自组网(CWAN)是一种应用CR技术的多跳自组织动态网络。对广域网中服务质量(QoS)的研究还处于起步阶段。到目前为止,还没有人尝试将QoS架构建模为CWAN的统一解决方案,因此这是本文的重点。我们提出了一种基于跨层方法的C2net的CWAN服务质量体系结构。C2net在节点移动性和pu存在的情况下,为不同的流量类型提供服务优先级。主要目标是为高优先级流提供稳定的QoS保证。这是通过C2net的许多分布式特性实现的,包括拓扑管理、拥塞控制、调度和动态通道选择。本文的目的是双重的。首先,提出了基于C2net信令下一步(NSIS)的体系结构框架。其次,讨论CWAN的内在复杂性所带来的挑战和开放问题,以激发该领域的新研究兴趣。
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C2net: A Cross-Layer Quality of Service (QoS) Architecture for Cognitive Wireless Ad Hoc Networks
Cognitive radio (CR) improves utilization of the overall radio spectrum through dynamic adaptation to local spectrum availability. In CR networks, unlicensed or secondary users (SUs) may operate in underutilized spectrum owned by the licensed or primary users (PUs) conditional upon PU encountering acceptable interference levels. A cognitive wireless ad hoc network (CWAN) is a multihop self-organized and dynamic network that applies CR technology. The research into quality of service (QoS) in CWAN is still in its infancy. To date, no attempt has been made to model a QoS architecture as a unified solution for CWAN and so this is the focus of this paper. We present a novel QoS architecture called C2net for CWAN based on a cross-layer approach. C2net provides service prioritization to different traffic types in the presence of nodal mobility and PUs. The main objective is to provide stable QoS assurance to high priority flows. This is realized by a number of distributed features of C2net including topology management, congestion control, scheduling, and dynamic channel selection. The purpose of this paper is twofold. Firstly, to present the architectural framework based on next steps in signaling (NSIS) for C2net. Secondly, to discuss the challenges and open issues posed by the intrinsic complexities of CWAN to spark new research interests in this field.
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