Title :
Optimum Pilot Sequences for Data-Aided Synchronization
Author :
Shaw, Chris ; Rice, Matthew
Author_Institution :
Dept. of Electr. & Comput. Eng., Brigham Young Univ., Provo, UT, USA
Abstract :
We compute the pilot sequences that minimize the Cramér-Rao bound(CRB) for carrier phase offset, carrier frequency offset, and symbol timing offset estimation. If we require the pilot sequence to be drawn from a discrete set of constellation points, then the alternating sequence is the CRB-minimizing sequence. If we relax the constellation constraint and apply a total energy constraint, we obtain three different sequences that minimize the CRB for each of the synchronization parameters. We show that the maximum-likelihood (ML) estimator achieves the CRB for any of the sequences presented. We also explore the impact of using the pilot symbols in a preamble with unknown data symbols immediately following. The interference caused by the unknown data symbols reduces the performance of the ML estimator beyond an SNR threshold.
Keywords :
data communication; interference (signal); maximum likelihood estimation; synchronisation; CRB-minimizing sequence; Cramέr-Rao bound; ML estimator; SNR threshold; carrier frequency offset; carrier phase offset; data symbols; data-aided synchronization; maximum-likelihood estimator; optimum pilot sequences; synchronization parameters; Estimation; Frequency estimation; Joints; Partial transmit sequences; Shape; Synchronization; Cramér-Rao bound; Estimation theory; pilot sequences;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2013.032713.120575
