Orthogonal Frequency Division Multiplexing for Wireless Communications

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Please use this identifier to cite or link to this item: http://hdl.handle.net/1853/4960

Title: Orthogonal Frequency Division Multiplexing for Wireless Communications
Author: Zhang, Hua
Abstract: OFDM is a promising technique for high-data-rate wireless communications because it can combat inter-symbol interference (ISI) caused by the dispersive fading of wireless channels. The proposed research focuses on techniques that improve the performance of OFDM-based wireless communications and its commercial and military applications. In particular, we address the following aspects of OFDM: inter-channel interference (ICI) suppression, interference suppression for clustered OFDM, clustered OFDM based anti-jamming modulation, channel estimation for MIMO-OFDM, MIMO transmission with limited feedback. For inter-channel interference suppression, a frequency domain partial response coding (PRC) scheme is proposed to mitigate ICI. We derive the near-optimal weights for PRC that is independent on the channel power spectrum. The error floor resulting from ICI can be reduced significantly using a two-tap or a three-tap PRC. Clustered OFDM is a new technique that has many advantages over traditional OFDM. In clustered OFDM systems, adaptive antenna arrays are used for interference suppression. To calculate weights for interference suppression, we propose a polynomial-based parameter estimator to combat the severe leakage of the DFT based estimator due to the small size of the cluster. An adaptive algorithm is developed to obtain optimal performance. For high data rate military communications, we propose a clustered OFDM base spread spectrum modulation to provide both anti-jamming and fading suppression capability. We analyze the performance of uncoded and coded system. Employing multiple transmit and receive antennas in OFDM systems (MIMO-OFDM) can increase the spectral efficiency and link reliability. We develop a minimum mean-square-error (MMSE) channel estimator that takes advantage of the spatial-frequency correlations in MIMO-OFDM systems to minimize the estimation error. We investigate the training sequence design and two optimal training sequence designs are given for arbitrary spatial correlations. For a MIMO system, the diversity and array gains can be obtained by exploiting channel information at the transmitter. For MIMO-OFDM systems, we propose a subspace tracking based approach that can exploit the frequency correlations of the OFDM system to reduce the feedback rate. The proposed approach does not need recalculate the precoding matrix and is robust to multiple data stream transmission.
Type: Dissertation
URI: http://hdl.handle.net/1853/4960
Date: 2004-11-24
Publisher: Georgia Institute of Technology
Subject: OFDM
Clustered OFDM
Adaptive antenna array
MIMO-OFDM
Feedback
Anti-jamming
Channel estimation
ICI suppression
Diversity
Wireless communication systems
Adaptive antennas
Mobile communication systems
Multiplexing
Radar Interference
Department: Electrical and Computer Engineering
Advisor: Committee Chair: Gordon L. Stber; Committee Member: Gregory D. Durgin; Committee Member: Guotong Zhou; Committee Member: Xinxin Yu; Committee Member: Ye (Geoffrey) Li
Degree: Ph.D.

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