Blind frequency offset estimation and intercarrier interference cancelation for FD-MC-CDMA systems in aerial vehicle communication
FD-MC-CDMA is an attractive candidate for next generation high speed aerial vehicle communication for its high spectrum efficiency and excellent BER performance. Similar to other multi-carrier transmission technologies, FD-MC-CDMA suffers significant performance degradation resulting from intercarri...
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Published in | MILCOM 2012 - 2012 IEEE Military Communications Conference pp. 1 - 6 |
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Main Authors | , , , , |
Format | Conference Proceeding |
Language | English |
Published |
IEEE
01.10.2012
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Subjects | |
Online Access | Get full text |
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Summary: | FD-MC-CDMA is an attractive candidate for next generation high speed aerial vehicle communication for its high spectrum efficiency and excellent BER performance. Similar to other multi-carrier transmission technologies, FD-MC-CDMA suffers significant performance degradation resulting from intercarrier interference (ICI) in high mobility environments. Particularly, because of the ICI is observed from all other subcarriers, the benefit of decomposing subcarriers into non-contiguous sets diminishes. In this paper, we propose a parallel processing based blind frequency offset estimation and ICI cancelation method for FD-MC-CDMA system to significantly improve the BER performance in high mobility environment. Specifically, by exploiting frequency offset quantization, the proposed scheme takes advantage of the orthogonality of the ICI matrix and offers excellent ICI cancelation and significant BER improvement. Moreover, the proposed scheme does not lower the transmission rate or reduce the network capacity. It is important to note that the proposed ICI cancelation scheme maintains the low complexity of optimum multi-user detection (MUD) receiver and achieves the ICI cancelation and excellent BER performance at linearly growing cost. Simulation results in AWGN channel and multi-path fading channel confirm the performance of the proposed scheme in the presence of frequency offset and in mobile channel. |
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ISBN: | 1467317292 9781467317290 |
ISSN: | 2155-7578 2155-7586 |
DOI: | 10.1109/MILCOM.2012.6415840 |