This paper presents the simulation study of a multiple-symbols differential demodulator for Gaussian Minimum Shift Keying (GMSK) which compensates for the heavy selective distortions caused by multipath propagation. The receiver includes a channel estimator operating in a training mode at the beginning of each burst, and a multiple-symbols differential processor which has been demonstrated in the literature to be optimum over non-coherent AWGN channels. The combination of channel estimation and differential demodulation makes the receiver robust to fast Doppler shifts and to wide time-spread. Simulation results are presented which show the performance in different multipath environments based on the recommendations established by the GSM system. Comparisons with a coherent receiver including a matched filter, an adaptive channel estimator and a Viterbi processor show that the detector proposed in this correspondence is quite attractive.
Abrardo, A., Benelli, G. (1997). Non-Linear Equalization for Incoherent Radiomobile Channel. EUROPEAN TRANSACTIONS ON TELECOMMUNICATIONS, 8(5), 537-541 [10.1002/ett.4460080511].
Non-Linear Equalization for Incoherent Radiomobile Channel
ABRARDO, ANDREA;
1997-01-01
Abstract
This paper presents the simulation study of a multiple-symbols differential demodulator for Gaussian Minimum Shift Keying (GMSK) which compensates for the heavy selective distortions caused by multipath propagation. The receiver includes a channel estimator operating in a training mode at the beginning of each burst, and a multiple-symbols differential processor which has been demonstrated in the literature to be optimum over non-coherent AWGN channels. The combination of channel estimation and differential demodulation makes the receiver robust to fast Doppler shifts and to wide time-spread. Simulation results are presented which show the performance in different multipath environments based on the recommendations established by the GSM system. Comparisons with a coherent receiver including a matched filter, an adaptive channel estimator and a Viterbi processor show that the detector proposed in this correspondence is quite attractive.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
https://hdl.handle.net/11365/45086
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