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Semi-blind channel estimation for the uplink of multi-carrier code-division multiple access systems with timing offset

Semi-blind channel estimation for the uplink of multi-carrier code-division multiple access systems with timing offset

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Timing offsets (TO) introduce misaligned interferences and phase errors, which degrade the performance of channel estimation. The authors propose a new semi-blind channel estimator that can cancel the TO effects on channel estimation and work well in the uplink of multi-carrier code-division multiple access systems in the presence of TO. The proposed channel estimator exploits the spreading sequence information instead of pilots to accomplish semi-blind estimation. Since the estimated channel coefficients are affected by the users' transmitted data, the effect of the users' data needs to be reduced. For this purpose, the authors also propose two smoothing algorithms, division smoothing and optimisation smoothing. In addition, to extend the new estimator to the system where the number of active users is too large, channel estimation over multiple symbols is discussed. The simulation results show that the proposed semi-blind estimator works better than a conventional estimator in the presence of TO, and its performance is very close to the conventional estimator in the absence of TO. Besides, the proposed estimator is compared with a sub-space estimator in simulation, and the results indicate that the new proposed estimator can achieve the same mean square error performance over the duration of a single symbol as the sub-space estimator over the duration of several symbols.

Inspec keywords: optimisation; smoothing methods; mean square error methods; code division multiple access; channel estimation

Other keywords: sub-space estimator; division smoothing algorithms; mean square error performance; optimisation smoothing algorithm; multicarrier code-division multiple access system; timing offset; semiblind channel estimation; spreading sequence information

Subjects: Signal processing and detection; Multiple access communication; Interpolation and function approximation (numerical analysis); Communication channel equalisation and identification

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