Title :
Minimum error-probability diversity detection over fading dispersive channels with non-Gaussian noise
Author :
Buzzi, S. ; Conte, E. ; De Maio, A. ; Lops, M.
Author_Institution :
Dipt. di Ingegneria Elettronica, Naples Univ., Italy
Abstract :
In this work we consider the problem of M-ary signal detection over a single-input-multiple-output channel affected by time- and/or frequency-dispersive Rayleigh-distributed fading and in the presence of non-Gaussian noise, modeled as a spherically invariant random process (SIRP). We derive the optimum (minimum error-probability) detector, and show that its structure is canonical, i.e. it is independent of the actual noise statistics. Finally, the performance analysis of the receiver highlights that the adoption of diversity represents a suitable means to restore performance also in the presence of dispersive fading and impulsive non-Gaussian noise
Keywords :
Rayleigh channels; dispersive channels; diversity reception; error statistics; impulse noise; radio receivers; signal detection; M-ary signal detection; SIRP; canonical structure; dispersive fading; fading dispersive channels; frequency-dispersive Rayleigh-distributed fading; impulsive nonGaussian noise; minimum error-probability diversity detection; noise statistic; nonGaussian noise; optimum detector; performance; performance analysis; receiver; single-input-multiple-output channel; spherically invariant random process; time-dispersive Rayleigh-distributed fading; Additive noise; Atmospheric modeling; Detectors; Dispersion; Fading; Frequency; Gaussian noise; Random processes; Telecommunications; Wireless communication;
Conference_Titel :
Acoustics, Speech, and Signal Processing, 2000. ICASSP '00. Proceedings. 2000 IEEE International Conference on
Conference_Location :
Istanbul
Print_ISBN :
0-7803-6293-4
DOI :
10.1109/ICASSP.2000.861944
