无线电频谱与无线电信号数据协同可视分析方法

无线电频谱数据和无线电信号特征数据是无线电管理人员了解复杂电磁环境的主要信息来源,将两者协同起来分析是无线电管理领域的新发展方向,但频谱数据结构化程度低且频谱分析专业门槛高,信号数据在时频上离散、量大且信号特征提取不稳定,这些问题会严重影响分析效率.为此,提出了一种面向无线电频谱数据与无线电信号数据协同工作的可视分析方法,将经典的频谱可视化与新颖的信号可视化方法相结合,提供多种交互手段实现2种数据的联动分析和相互验证.文中采用了信号投影图作为人机交互接口,帮助分析人员可视交互地判别信号数量并聚类信号特征数据.同时还设计了一种新颖的信号流图,用于同时展示不同无线电信号的多特征时变模式.通过实验和用户评估,文中原型系统能较好地完成信号特征记录聚类、信号时变特征分析和信号数据提取准确性分析等需要两种数据密切配合才能完成的分析任务.

一种基于监测数据挖掘的无线电信号快速识别机制

针对频谱监测中无线电信号业务类型识别问题,提出将监测人员的人工判别过程投射到自动识别流程,建立无线电信号频谱特征数据库,在频率与带宽欧式距离最小、频率和带宽依次匹配和频率距离与带宽距离相乘值最小三种机制下挖掘待判别信号与数据库样本信号之间的联系,并融合三种机制的数据挖掘结果,使得无线电信号快速识别可以达到短波频段88%以上、超短波段95%以上的正确率。

Spectrum sensing sequence prediction in cognitive radio networks

Spectrum sensing is one of the key issues in cognitive radio networks. Most of previous work concenates on sensing the spectrum in a single spectrum band. In this paper, we propose a spectrum sensing sequence prediction scheme for cognitive radio networks with multiple spectrum bands to decrease the spectrum sensing time and increase the throughput of secondary users. The scheme is based on recent advances in computational learning theory, which has shown that prediction is synonymous with data compression. A Ziv-Lempel data compression algorithm is used to design our spectrum sensing sequence prediction scheme. The spectrum band usage history is used for the prediction in our proposed scheme. Simulation results show that the proposed scheme can reduce the average sensing time and improve the system throughput significantly.