Paper Info
Title
Data-assisted sub-Nyquist spectrum sensing
Abstract
Spectrum sensing is the first step to realize dynamic spectrum sharing. Geo-location database can enable white space devices (WSDs) to make use of the vacant spectrum without harmfully interfering with incumbent services. Dynamic changes of the wireless environment pose significant challenges to the database approach. Wideband spectrum sensing can detect the instant spectral opportunities over the wide frequency range, but the high sampling rate is hard to implement in the power-limited devices. To relax the sensing requirements on the WSDs, hybrid framework that combines the advantages of both geo-location database and spectrum sensing is explored in this paper. To further reduce the sampling bottleneck at high frequency, sub-Nyquist sampling techniques are adopted by exploiting the sparse property of the wideband signals. The experimental results show that the proposed hybrid schemes can achieve improved detection performance with reduced hardware and computation complexity in comparison with the sensing and database only approach.
Year
DOI
Venue
2016
10.1109/ICCS.2016.7833570
2016 IEEE International Conference on Communication Systems (ICCS)
Keywords
Field
DocType
computation complexity reduction,hardware complexity reduction,detection performance improvement,wideband signals,subNyquist sampling,hybrid framework,power-limited devices,instant spectral opportunities detection,wideband spectrum sensing,wireless environment,WSD,white space devices,geolocation database,dynamic spectrum sharing,data-assisted subNyquist spectrum sensing
Bottleneck,Wideband,White spaces,Wireless,Simulation,Computer science,Sampling (signal processing),Computer network,Electronic engineering,Sampling (statistics),Nyquist–Shannon sampling theorem,Computation complexity
Conference
ISBN
Citations 
PageRank 
978-1-5090-3424-6
0
0.34
References 
Authors
12
4
Name
Order
Citations
PageRank
Yue Gao155852.83
Yuan Ma2248.49
Wei Zhang32546194.57
Rafael Cepeda400.34