Error Rates for a Class of Binary Receivers

Abstract

An error rate expression for a canonic binary receiver operating over channels that are characterized by both a nonfading component and a selectively fading random component and additive Gaussian noise is derived. The canonic receiver consists ofLindependent diversity branches. Most practical binary receivers for FSK, noisy-reference PSK, such as for example, DPSK, pilottone PSK, etc., are special cases of the canonic receiver. The results are applied to evaluate performance of incoherent detection of orthogonal FSK transmission over the HF channel that includes time and frequency selective fading and a nonfading component. The effect of intersymbol interference is also considered. The irreducible error rate for typical values of multipath and fading rates are illustrated for no diversity and dual diversity reception.

Keywords

This publication has 11 references indexed in Scilit:

Binary Error Probabilities Over Selectively Fading Channels Containing Specular Components
IEEE Transactions on Communications, 1966
Error probabilities for Rician fading multichannel reception of binary andn-ary signals
IEEE Transactions on Information Theory, 1964
Some Non-Central F-Distributions Expressed in Closed Form
Biometrika, 1964
Optimization of Subchannel Data Rate in FDM-SSB Transmission over Selectively Fading Media
IEEE Transactions on Communications, 1964
Unified analysis of certain coherent and noncoherent binary communications systems
IEEE Transactions on Information Theory, 1964
Characterization of Randomly Time-Variant Linear Channels
IEEE Transactions on Communications, 1963
The Characteristic Function of Hermitian Quadratic Forms in Complex Normal Variables
Biometrika, 1960
Theoretical Diversity Improvement in Frequency-Shift Keying
Proceedings of the IRE, 1958
Envelopes and pre-envelopes of real waveforms
IEEE Transactions on Information Theory, 1958
The Multivariate Distribution of Complex Normal Variables
Biometrika, 1956