Performance evaluation of an efficient reduced-complexity time synchronization approach for OFDM systems |
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Authors: | Leïla Nasraoui Leïla Najjar Atallah Mohamed Siala |
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Affiliation: | 1. COSIM Laboratory, Higher School of Communications (SUP’COM), City of Communication Technologies, 2083, Ariana, Tunisia 2. MEDIATRON Laboratory, Higher School of Communications (SUP’COM), City of Communication Technologies, 2083, Ariana, Tunisia
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Abstract: | This paper presents a performance analysis of a recently proposed preamble-based reduced-complexity (RC) two-stage synchronization technique. The preamble, composed of two identical subsequences, is first used to determine an uncertainty interval based on Cox and Schmidl algorithm. Then, a differential correlation-based metric is carried using a new sequence obtained by element wise multiplication of the preamble subsequence and a shifted version of it. This second step is performed to fine tune the coarse time estimate, by carrying the differential correlation-based metric over the uncertainty interval of limited width around the coarse estimate, thus leading to low computational load. In this paper, we first discuss some complexity issues of the RC approach compared to previously proposed algorithms. Then, we study the effect of the training sequence class and length choices on the synchronization performance in the case of multipath channels. The impact of the uncertainty interval width on the trade-off between performance and complexity is also studied. The two-stage approach was found to provide almost equal performance to those obtained by the most efficient differential correlation-based benchmarks. However, it has a very reduced computational load, equivalent to that of sliding correlation-based approaches. |
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