Detection and Information Rate of Telegraphic Signals

Author

Bell, D.A.

Author_Institution

Univ. of Birmingham, Birmingham, England

Volume

9

Issue

1

fYear

1961

fDate

3/1/1961 12:00:00 AM

Firstpage

70

Lastpage

76

Abstract

"Detection" in the title of this paper is used in the sense of decision-making, rather than demodulation. The ideal communication rate for a physical channel is provided by Shannon\´s formula $C \\leq W \\log (1 + P/N)$ , and for a binary symmetric channel the theoretical amount of information per digit is $I = 1 + p \\log p + q \\log q$ , where $p$ is probability of error per digit and $p + q = 1$ . Various error-correcting codes are compared with the second formula. It is shown that correlation-detection is equivalent to minimum-distance detection provided all code groups are of equal mean power, and that a binary-coded signal can always be adjusted to the constant-power state. Experimental results are reported on error reduction in a two-out-of-five code by the use of correlation detection. It is noted that square-law detection would be inferior to linear detection in such a system.

Keywords

Channel capacity; Decision making; Demodulation; Entropy; Error analysis; Error correction; Error correction codes; Information rates; Instruments; Parity check codes;

fLanguage

English

Journal_Title

Communications Systems, IRE Transactions on

Publisher

ieee

ISSN

0096-2244

Type

jour

DOI

10.1109/TCOM.1961.1097647

Filename

1097647