New closed-form bounds on the performance of coding in correlated Rayleigh fading
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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.
Date issued
2009-10Department
Lincoln LaboratoryJournal
IEEE Transactions on Communications
Publisher
Institute of Electrical and Electronics Engineers
Citation
Hutchenson, D.K., and D.L. Noneaker. “New closed-form bounds on the performance of coding in correlated Rayleigh fading.” Communications, IEEE Transactions on 57.10 (2009): 2923-2931. © 2009 IEEE
Version: Final published version
ISSN
0090-6778
Keywords
error-correction codes, diversity reception, convolutional codes, Rayleigh channels, Fading channels