Research Article
Spectral occupation measurements and blind standard recognition sensor for cognitive radio networks
@INPROCEEDINGS{10.1109/CROWNCOM.2009.5189204, author={Miguel L\^{o}pez-Ben\^{\i}tez and Fernando Casadevall and Anna Umbert and Jordi P\^{e}rez-Romero and Rachid Hachemani and Jacques Palicot and Christophe Moy }, title={Spectral occupation measurements and blind standard recognition sensor for cognitive radio networks}, proceedings={4th International ICST Conference on Cognitive Radio Oriented Wireless Networks and Communications}, publisher={IEEE}, proceedings_a={CROWNCOM}, year={2009}, month={8}, keywords={}, doi={10.1109/CROWNCOM.2009.5189204} }
- Miguel López-Benítez
Fernando Casadevall
Anna Umbert
Jordi Pérez-Romero
Rachid Hachemani
Jacques Palicot
Christophe Moy
Year: 2009
Spectral occupation measurements and blind standard recognition sensor for cognitive radio networks
CROWNCOM
IEEE
DOI: 10.1109/CROWNCOM.2009.5189204
Abstract
Cognitive radio has been claimed to be a hopeful solution to the existing conflicts between spectrum demand growth and spectrum underutilization. The basic underlying idea of cognitive radio is to allow unlicensed users to access in an opportunistic and non-interfering manner some licensed bands temporarily unoccupied by licensed users. The cognitive radio concept relies on two basic premises: the current spectrum underutilization, which has been demonstrated in some spectrum measurements campaigns, and the ability of unlicensed users to effectively detect and identify the presence of different licensed technologies in order not to cause harmful interference. In this context, this paper reports the joint work on these two areas that is currently being carried out in the framework of the FP7 Network of Excellence in Wireless COMmunications (NEWCOM++). Concretely, this paper presents spectrum occupancy measurements conducted in the frequency range from 75 MHz to 7075 MHz that demonstrate the low degree to which spectrum is currently used in an urban outdoor environment and also describes the blind standard recognition sensor concept, a sensor embedded in a cognitive radio equipment to enable the identification of many commercial wireless standards without the need to connect to any network. The joint research in both areas is a key step in promoting and validating the idea of dynamic spectrum usage.