DocumentCode
1990878
Title
Intercarrier interference cancellation for wideband OFDM in high speed aerial vehicle communication
Author
Qian Han ; Xue Li ; Temple, Michael ; Zhiqiang Wu
fYear
2013
fDate
28-31 Jan. 2013
Firstpage
23
Lastpage
27
Abstract
It is well known that Orthogonal Frequency Division Multiplexing (OFDM) systems suffer from intercarrier interference (ICI) in mobile environment due to loss of orthogonality among subcarriers caused by Doppler shifts. There exist many ICI mitigation techniques in the literature to improve the performance of OFDM systems. However, most of the existing ICI mitigation techniques assume the OFDM transmission bandwidth is narrow enough that the frequency offsets on all subcarriers are identical. In a wideband OFDM transmission or a non-contiguous OFDM spanning over large bandwidth, the Doppler shifts on different subcarriers are different, especially in high speed aerial vehicle communication systems. In this paper, we analyze the wideband OFDM system in high mobility environment where the frequency offsets vary from subcarrier to subcarrier. We then propose a novel ICI cancellation scheme to eliminate the ICI effect and offer the wideband OFDM system significantly improved BER performance. Simulation results in AWGN channel and multipath fading channel confirm the effectiveness of the proposed scheme in the presence of frequency offset and time variations in the channel, offering the best BER performance available which matches the BER performance of wideband OFDM system without ICI. To our knowledge, this paper is the first to address the ICI problem of varying frequency offsets across subcarriers in wideband OFDM system.
Keywords
AWGN channels; Doppler shift; OFDM modulation; error statistics; fading channels; intercarrier interference; interference suppression; mobile radio; AWGN channel; Doppler shift; ICI mitigation; bit error rate; frequency offset; high speed aerial vehicle communication; intercarrier interference cancellation; mobile environment; multipath fading channel; time variations; wideband OFDM; AWGN channels; Bit error rate; Fading; OFDM; Quantization (signal); Vectors; Wideband;
fLanguage
English
Publisher
ieee
Conference_Titel
Computing, Networking and Communications (ICNC), 2013 International Conference on
Conference_Location
San Diego, CA
Print_ISBN
978-1-4673-5287-1
Electronic_ISBN
978-1-4673-5286-4
Type
conf
DOI
10.1109/ICCNC.2013.6504047
Filename
6504047
Link To Document