Title :
Fourier-Bessel error performance analysis of 1024-QAM in error burst generating environments
fDate :
10/27/1988 12:00:00 AM
Abstract :
A closed form performance evaluation of 1024-QAM in error burst generating channels is demonstrated. The noise model employed (which closely models atmospheric and ignition noise) consists of the additive mixture noise and a stream of Poisson impulses with amplitude areas distributed according to a bilateral Rayleigh PDF. The results show that nonGaussian impulsive noise degrades the system performance significantly in comparison with the system performance in cochannel interference and demonstrate that the used Fourier-Bessel series approach is a powerful and very accurate computational tool
Keywords :
amplitude modulation; digital communication systems; error statistics; microwave links; probability; radiofrequency interference; series (mathematics); telecommunication channels; 1024-QAM; BER; Fourier-Bessel series; Poisson impulse stream; additive mixture noise; amplitude areas distribution; atmospheric noise; bilateral Rayleigh PDF; closed form performance evaluation; cochannel interference; digital microwave transmission; error burst generating environments; error performance analysis; ignition noise; noise model; nonGaussian impulsive noise;
Journal_Title :
Electronics Letters
