Title :
Simultaneous clock phase and frequency offset estimation
Author :
Scott, K.E. ; Olasz, E.B.
Author_Institution :
NovAtel Commun. Ltd., Calgary, Alta., Canada
fDate :
7/1/1995 12:00:00 AM
Abstract :
Residual frequency offsets may often result in poor functioning of a digital receiver. This is particularly true in a frequency selective environment where an adaptive equalizer may be required. In this paper, a frequency offset estimation algorithm is presented which is based on applying a nonlinear operation on the received sampled baseband signal. Tones at multiples of the clock frequency are produced and the phases of these tones provide both the desired frequency offset and clock phase information. This algorithm is intended to operate without knowledge of the pulse shape and therefore may be suitable for frequency selective environments. Additionally, the clock phase may be estimated with very little overhead. Simulations with AWGN, flat and frequency selective fading channels are included
Keywords :
Gaussian channels; adaptive equalisers; fading; frequency estimation; phase estimation; radio receivers; synchronisation; AWGN; adaptive equalizer; algorithm; clock frequency; clock phase; digital receiver; flat fading channels; frequency offset estimation; frequency selective environment; frequency selective fading channels; nonlinear operation; received sampled baseband signal; residual frequency offsets; simulations; tone phases; Adaptive equalizers; Baseband; Clocks; Fading; Frequency domain analysis; Frequency estimation; Frequency synchronization; Mobile communication; Phase estimation; Pulse shaping methods; Signal processing;
Journal_Title :
Communications, IEEE Transactions on
