Title :
Joint Doppler frequency and frequency-rate estimation in LEO satellite communications
Author :
Nunes, Femando D. ; Léitão, Jose M N
Author_Institution :
Instituto de Telecomunicacoes, Inst. Superior Tecnico, Lisboa, Portugal
Abstract :
We propose an algorithm for the joint estimation of frequency and frequency-rate in signals affected by fading and AWGN. Instead of processing the raw data directly, a stochastic nonlinear filter (NLF) is used for sequential phase estimation; the concatenated ML frequency and frequency-rate estimators are then fed by the NLF phase outputs. As a result of employing stochastic filtering the ML estimators exhibit enhanced robustness to changes of the signal-to-noise ratio and smaller threshold effects. An application of the proposed algorithm to the quasi-coherent detection of M-DPSK signals in nongeostationary satellite communications is also presented. Simulations show that the proposed receiver is rather insensitive to (time-varying) Doppler frequency shifts in flat-fading Rician channels.
Keywords :
AWGN channels; Doppler shift; Rician channels; differential phase shift keying; frequency estimation; maximum likelihood sequence estimation; nonlinear filters; phase estimation; satellite communication; signal detection; stochastic processes; time-varying channels; AWGN; Doppler frequency estimation; LEO satellite communications; M-DPSK signals; concatenated ML frequency estimators; fading; flat-fading Rician channels; frequency-rate estimation; nongeostationary satellite communications; phase outputs; quasi-coherent detection; receiver; sequential phase estimation; signal-to-noise ratio; stochastic filtering; stochastic nonlinear filter; time-varying Doppler frequency shifts; AWGN; Concatenated codes; Fading; Frequency estimation; Low earth orbit satellites; Maximum likelihood estimation; Nonlinear filters; Phase estimation; Satellite communication; Stochastic processes;
Conference_Titel :
Global Telecommunications Conference, 2002. GLOBECOM '02. IEEE
Print_ISBN :
0-7803-7632-3
DOI :
10.1109/GLOCOM.2002.1189154
