Abstract
A novel data-aided fading estimation technique that employs both pilot anddata symbols is proposed to significantly reduce the bandwidth redundancy ofthe pilot-symbol-aided (PSA) systems using receivers with low complexity andlatency in the shadowed mobile satellite fading channels. The shadowed mobilesatellite fading channels are modeled as the sum of a lognormally distributeddirect component and a Rayleigh distributed multipath component, and the PSAsystem employs 16-ary quadrature-amplitude-modulation (16QAM) fortransmission. Monte Carlo computer simulation has been used to assess thetechnique on the bit-error-rate (BER) performances of the system in the lightshadowed, the average shadowed and the heavy shadowed Rician fadingenvironments. The results have shown that the proposed technique requires avery low bandwidth redundancy to provide satisfactory BER performances, andcan substantially lower the error floors of the PSA systems.
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