WSEAS Transactions on Signal Processing
Print ISSN: 1790-5052, E-ISSN: 2224-3488
Volume 10, 2014
Diversity Detection in Non-Gaussian Noise over Fading Channels by Generalized Detector
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Abstract: In this paper, we consider the problem of M-ary signal detection based on the generalized approach to signal processing (GASP) in noise over a single-input multiple-output (SIMO) channel affected by the frequ-ency-dispersive Rayleigh distributed fading and corrupted by the additive non-Gaussian noise modelled as spherically invariant random process. We derive both the optimum generalized detector (GD) structure based on GASP and a suboptimal reduced-complexity GD applying the low energy coherence approach jointly with the GASP in noise. Both GD structures are independent of the actual noise statistics. We also carry out a perfo-rmance analysis of both GDs and compare with the conventional receivers. The performance analysis is carried out with reference to the case that the channel is affected by a frequency-selective fading and for a binary freq-uency-shift keying (BFSK) signalling format. The results obtained through both a Chernoff-bounding technique and Monte Carlo simulations reveal that the adoption of diversity also represents a suitable means to restore pe-rformance in the presence of dispersive fading and impulsive non-Gaussian noise. It is also shown that the sub-optimal GD incurs a limited loss with respect to the optimum GD and this loss is less in comparison with the conventional receiver.
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Keywords: Generalized detector (GD), additive non-Gaussian noise, array processing, diversity, detection performance, generalized approach to signal processing (GASP), spherically invariant random processes
Pages: 444-459
WSEAS Transactions on Signal Processing, ISSN / E-ISSN: 1790-5052 / 2224-3488, Volume 10, 2014, Art. #47