Title :
Frequency offset and symbol timing recovery in flat-fading channels: a cyclostationary approach
Author :
Gini, Fulvio ; Giannakis, Georgios B.
Author_Institution :
Dept. of Inf. Eng., Pisa Univ., Italy
fDate :
3/1/1998 12:00:00 AM
Abstract :
Two open-loop algorithms are developed for estimating jointly frequency offset and symbol timing of a linearly modulated waveform transmitted through a frequency-flat fading channel. The methods exploit the received signal´s second-order cyclostationarity and, with respect to existing solutions: (1) they take into account the presence of time-selective fading effects; (2) they do not need training data; (3) they do not rely on the Gaussian assumption of the complex equivalent low-pass channel process; and (4) they are tolerant to additive stationary noise of any color or distribution. Performance analysis of the proposed methods using Monte Carlo simulations, unifications, and comparisons with existing approaches are also reported
Keywords :
Monte Carlo methods; correlation methods; digital simulation; discrete time systems; fading; frequency estimation; modulation; noise; signal sampling; spectral analysis; statistical analysis; synchronisation; telecommunication channels; timing; Monte Carlo simulations; additive stationary noise; complex equivalent low-pass channel process; cyclic correlation; cyclic spectrum; cyclic ststistics; cyclostationary approach; frequency offset estimation; frequency-flat fading channel; linearly modulated waveform; noise distribution; open-loop algorithms; performance analysis; sampled received sequence; second-order cyclostationarity; symbol timing estimation; symbol timing recovery; synchronization parameters; time-selective fading effects; unifications; Additive noise; Chirp modulation; Color; Colored noise; Fading; Frequency estimation; Gaussian noise; Signal processing; Timing; Training data;
Journal_Title :
Communications, IEEE Transactions on
