Research Article
Cognitive Radio Prototyping
@INPROCEEDINGS{10.1109/CROWNCOM.2008.4562481, author={Peter Jung and Alexander VIESSMANN and Christoph SPIEGEL and Admir BURNIC and Zijian BAI and Guido H. BRUCK and Konstantin STATNIKOV and Andreas WAADT and Shangbo WANG and Xavier POPON and Rafael RODRIGUEZ VELILLA and Harri SAARNISAARI and Matthias ALLES and Torben BRACK and Frank KIENLE and Friedbert BERENS and Salvatore ROTOLO and Fabio Mario SCALISE and Norbert WEHN}, title={Cognitive Radio Prototyping}, proceedings={3rd International ICST Conference on Cognitive Radio Oriented Wireless Networks and Communications}, publisher={IEEE}, proceedings_a={CROWNCOM}, year={2008}, month={7}, keywords={Cognitive Radio Generic Multi-Carrier Representation (GMCR) Multimode Multi-Standard URANUS Canonical Parametric Description (CPD)}, doi={10.1109/CROWNCOM.2008.4562481} }
- Peter Jung
Alexander VIESSMANN
Christoph SPIEGEL
Admir BURNIC
Zijian BAI
Guido H. BRUCK
Konstantin STATNIKOV
Andreas WAADT
Shangbo WANG
Xavier POPON
Rafael RODRIGUEZ VELILLA
Harri SAARNISAARI
Matthias ALLES
Torben BRACK
Frank KIENLE
Friedbert BERENS
Salvatore ROTOLO
Fabio Mario SCALISE
Norbert WEHN
Year: 2008
Cognitive Radio Prototyping
CROWNCOM
IEEE
DOI: 10.1109/CROWNCOM.2008.4562481
Abstract
Future wireless systems have been evolving toward a broadband and open architecture for efficient multi-service operation, which will have a great impact on the terminal and infrastructure component design methodology for supporting multiple radio schemes. Cooperation in wireless networks, requiring cognitive radio implementations, will facilitate a new dimension in the evolution of multimedia communications. The growing price pressure requires ever increasing high levels of integration efficiency, of flexibility and of future proofness at the same time, setting out in the digital baseband domain. In this communication, the authors will illustrate a platform based prototyping process, setting out from the paradigm developed in the IST-27960 STREP URANUS (UNIVERSAL RADIO-LINK PLATFORM FOR EFFICIENT USER-CENTRIC ACCESS). URANUS investigates the design of a universal radio link platform able to be incorporated in any existing proprietary and standardized wireless system in a seamless way, to ease the introduction of future personalized communications and reconfigurable air interfaces.