New Blind Block Synchronization for Transceivers Using Redundant Precoders

Su, Borching; Vaidyanathan, P.P.

doi:10.1109/tsp.2008.2005088

Cited by 3 publications

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Performance Analysis of the Cooperative ZP-OFDM: Diversity, Capacity and Complexity

Lü

Nikookar

et al. 2011

Wireless Pers Commun

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In this paper, we investigate the diversity, capacity and complexity issues of cooperative Zero-Padding (ZP)-Orthogonal Frequency Division Multiplexing (OFDM) communication. We consider cooperative ZP-OFDM communication over a multipath Rayleigh channel and with multiple Carrier Frequency Offsets (CFOs) existing at different relays. We use a cooperative tall Toeplitz scheme to achieve full cooperative and multipath diversity, while simultaneously combat the CFOs. Importantly, this full diversity scheme only requires Linear Equalizers (LEs), such as Zero-Forcing (ZF) and Minimum Mean Square Error (MMSE) equalizers, an issue which reduces the system complexity when compared to a Maximum-Likelihood Equalizer (MLE) or other near-MLEs. Theoretical analysis of the proposed cooperative tall Toeplitz scheme is provided on the basis of the analytical upper bound of the channel orthogonality deficiency derived in this paper. Utilizing only low-complexity linear equalizers, theoretical analysis and simulation results show that the proposed Toeplitz scheme achieves the full cooperative, multipath and outage diversity.

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Performance Analysis of the Cooperative ZP-OFDM: Diversity, Capacity and Complexity

Lü

Nikookar

et al. 2011

Wireless Pers Commun

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New Algorithms for Blind Block Synchronization in Zero-Padding Systems

Vaidyanathan

2007

2007 IEEE International Conference on Acoustics, Speech and Signal Processing - ICASSP '07

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Abstract-Blind channel identification using linear redundant filterbank precoders (LRP) has been studied extensively in the literature. Most methods are proposed based on the assumption that block synchronization is perfect. In practice, a blind block synchronization algorithm must be used to justify this assumption. This paper studies the blind block synchronization problem in systems using a zero-padding (ZP) precoder. A previously reported method is reviewed and a new approach for the problem is proposed. Generalized versions of both approaches are then developed using a parameter called repetition index. Simulation results show that when the repetition index is chosen to be greater than unity, the block synchronization error rate performance of the proposed algorithm has a significant improvement over the previously reported method.'

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