Heller C, Blümm C, Bouckaert S, Wei L, Moerman I, van Wesemael P, Pollin S, Solc T, Padrah Z (2012)
Publication Type: Conference contribution
Publication year: 2012
Publisher: IEEE
Pages Range: {7E2-1}-{7E2-9}
Event location: Williamsburg, VA
DOI: 10.1109/DASC.2012.6382425
Wireless intra-aircraft communication is expected to be the enabler for more flexible avionic systems and the reduction of weight and cost in system installations. An alternative to the usage of a dedicated frequency band for wireless intra-aircraft avionics could be the usage of a virtually unregulated ISM band. Cognitive radio techniques could be used to increase system robustness in the likely case of interferences in this kind of frequency bands. A cognitive wireless cabin management system is discussed as a use-case for the validation of this approach. Using the mobile cognitive radio testbed of the FP7 project CREW, spectrum sensing experiments are carried out in a realistic aircraft cabin environment as a baseline for the development of suitable cognitive protocols and to record interference scenarios for the further system design.
APA:
Heller, C., Blümm, C., Bouckaert, S., Wei, L., Moerman, I., van Wesemael, P.,... Padrah, Z. (2012). Spectrum Sensing for Cognitive Wireless Applications Inside Aircraft Cabins. In Proceedings of the IEEE Digital Avionics Systems Conference (pp. {7E2-1}-{7E2-9}). Williamsburg, VA, US: IEEE.
MLA:
Heller, Christoph, et al. "Spectrum Sensing for Cognitive Wireless Applications Inside Aircraft Cabins." Proceedings of the IEEE Digital Avionics Systems Conference, Williamsburg, VA IEEE, 2012. {7E2-1}-{7E2-9}.
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