Title :
New closed-form bounds on the performance of coding in correlated Rayleigh fading
Author :
Hutchenson, Dwight K. ; Noneaker, Daniel L.
Author_Institution :
Holcombe Dept. of Electr. & Comput. Eng., Clemson Univ., Clemson, SC, USA
fDate :
10/1/2009 12:00:00 AM
Abstract :
New, simple bounds are presented for the probability of error in a binary hypothesis test for communications using diversity signaling in correlated Rayleigh fading. The bounds are developed in the context of pairwise error-event probabilities in decoding an error-correction code. A long-standing conjecture regarding the form of worst-case error events in exponentially correlated Rayleigh fading is also proven. The utility of the results is illustrated by their application to transfer-function bounds on the probability of bit error for a system using a convolutional code. The closed-form transfer-function bounds are shown to be tighter than previously developed transfer-function bounds for communications in exponentially correlated Rayleigh fading.
Keywords :
Rayleigh channels; convolutional codes; error statistics; binary hypothesis test; bit error probability; closed-form bounds; closed-form transfer-function bounds; convolutional code; correlated Rayleigh fading; decoding; diversity signaling; error-correction code; error-event probability; Convolutional codes; Error correction codes; Hamming weight; Integral equations; Laboratories; Maximum likelihood decoding; Maximum likelihood detection; Rayleigh channels; Testing; Upper bound; Fading channels; Rayleigh channels; convolutional codes; diversity reception; error-correction codes;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2009.10.080217
