基于云和大数据的认知无线电网络协同频谱感知体系结构与算法

Victor Balogun, O. Sarumi
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引用次数: 2

摘要

认知无线电网络(Cognitive Radio Network, CRN)是为了缓解无线电资源的短缺而设计的。当主用户(pu)处于非活动状态时,从用户(su)可以利用任何可用的频谱。CRN面临的一些挑战包括业务中断损失、处理和交换大量数据的复杂性、单元可用内存有限以及频谱感知数据的非实时交换。这些挑战会导致CRN的性能显著下降。因此,有必要寻求缓解这些问题的解决办法。结合大数据分析算法的云系统可能是一个潜在的解决方案。在本文中,我们提出了一种基于云的CRN协同频谱感知模型,该模型允许su将其单独的频谱感知数据聚合到云环境中,在云环境中可以使用所提出的扩展Apache Spark算法进行分析,该算法结合了三种机器学习方法的杂交-集成分类器方法,可以有效和高效地分析频谱感知数据,以便于访问,实时分析;为SUs提供深入的洞察力和按需决策支持。此外,提出的双层融合中心设计通过使用云作为二级融合中心,同时仍然保持主要的陆基融合中心,引入了冗余。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Cooperative Spectrum Sensing Architecture and Algorithm for Cloud- and Big Data-based Cognitive Radio Networks
Cognitive Radio Network (CRN) was designed to lessen the shortage of radio resources. The Secondary Users (SUs) can opportunistically utilize any available spectrum when the Primary Users (PUs) are inactive. Some of the challenges of CRN include the service interruption loss, complexity of processing and exchange of large amount of data, limited available memory to SUs and the non-real-time exchange of spectrum sensing data. These challenges can lead to significant degradation in the performance of a CRN. Therefore, there is a need to seek solutions that will alleviate these problems. The Cloud system incorporated with Big Data Analytics algorithm can be a potential solution. In this paper, we propose a Cloud-based Cooperative Spectrum Sensing model for CRN that allows the SUs to aggregate their individual spectrum sensing data into a cloud environment, where it can be analyzed using a proposed expanded Apache Spark algorithm incorporated with the hybridization of three machine learning methods-ensemble classifier approach that can effectively and efficiently analyze the spectrum sensing data for easy access, real-time analysis, deep insight and on-demand decision support for the SUs. In addition, the two-layer Fusion Center design proposed introduces redundancy by using the cloud as a secondary Fusion Center while still maintaining a primary land-based Fusion Center.
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