This paper analyzes a sequential feedback detection scheme derived by Kramer's nonsequential intermittent one; in addition to the noiseless information feedback channel, it makes use of a noiseless decision feedback channel. Expressions for the normalized average evergy per symbol, average decision time, probability of error, and average power are derived. The comparison with the nonsequential intermittent scheme shows that the proposed one allows an appreciable gain in transmission rate and requires a smaller peak-to-average power ratio.
Binary Signal Detection with Decision and Information Feedbacks
IEEE Transactions on Aerospace and Electronic Systems ; AES-11 , 3 ; 393-399
1975-05-01
1276256 byte
Article (Journal)
Electronic Resource
English
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