Hardware implementation of low-overhead data aided timing and Carrier Frequency Offset correction for OFDM signals

by M. Jacovic, J. Chacko, D. Pfeil, N. Kandasamy and K. R. Dandekar
Reference:
M. Jacovic, J. Chacko, D. Pfeil, N. Kandasamy, K. R. Dandekar, “Hardware implementation of low-overhead data aided timing and Carrier Frequency Offset correction for OFDM signals”, In MILCOM 2015 – 2015 IEEE Military Communications Conference, pp. 495-500, 2015.
Bibtex Entry:
@INPROCEEDINGS{7357491, 
author={M. Jacovic and J. Chacko and D. Pfeil and N. Kandasamy and K. R. Dandekar}, 
booktitle={MILCOM 2015 - 2015 IEEE Military Communications Conference}, 
title={Hardware implementation of low-overhead data aided timing and Carrier Frequency Offset correction for OFDM signals}, 
year={2015}, 
volume={}, 
number={}, 
pages={495-500}, 
keywords={AWGN channels;OFDM modulation;synchronisation;matched filter;carrier frequency offset synchronization method;modified correlation scheme;orthogonal frequency division multiplexing;MATLAB system generator;Virtex-6 FPGA;ML605 Xilinx evaluation board;complex pseudonoise sequence;training sequence;frequency synchronization;pilot symbol;FFT sizes;additive white Gaussian noise channel;trained timing synchronization method;OFDM signals;carrier frequency offset correction;low-overhead data aided timing;hardware implementation;OFDM;Synchronization;Correlation;Training data;Hardware;Frequency synchronization;Carrier Frequency Offset;Data Aided Synchronization;FPGA Design;Frequency Synchronization;OFDM;Pilot Symbol Design;Timing Synchronization}, 
doi={10.1109/MILCOM.2015.7357491}, 
ISSN={}, 
month={Oct},}