Title :
Error Probability for Multipath Fading--The "Slow and Flat" Idealization
Author_Institution :
Inst for telecommunication Sciences and Aeronomy, Boulder, Co., and prev with Natl. Bureau of Standards, Boulder, Co.
fDate :
12/1/1967 12:00:00 AM
Abstract :
The ideal slow and flat fading model, consisting of any number of multipaths, is revisited. In this model the assignment of specular and scatter components is arbitrary. The additive disturbance need not be Gaussian noise, certain random distortions in the receiver are permitted, and the digital system and the modems are not restricted. Under these assumptions alternative error probability relations are given between the fading and nonfading signals. Their application to practical cases is straightforward. General performance bounds are also derived which are simple functions of the specular and scatter energy ratio in the multipath signal.
Keywords :
Analysis; Communication theory; Detection; Digital signals; Errors; Fading; Multipath propagation; Communication systems; Communications technology; Data communication; Diversity reception; Electrical engineering; Error probability; Fading; Frequency; Information theory; Moon;
Journal_Title :
Communication Technology, IEEE Transactions on
DOI :
10.1109/TCOM.1967.1089666
