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A Signal-to-Noise Property of Binary Decisions

Nature volume 193, pages 604–605 (1962)Cite this article

Abstract

THE statistical theory of Neyman and Pearson1, which uses the likelihood ratio in making binary decisions, has proved very valuable when applied to the physical problem of detecting a signal in noise2. This theory uses error probabilities as the basic criterion of performance in detection and tends to suggest that the attention given to the signal-to-noise ratio in older approaches is now outmoded. The purpose of this communication is to point out that, while a maximum signal-to-noise property is not any longer to be considered necessary in an optimum receiver for detection, a suitably formulated signal-to-noise requirement is sufficient to lead to a likelihood ratio receiver. This conclusion rests on a fully general property of the Neyman–Pearson binary decision theory which seems to have escaped previous notice.

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References

  1. Neyman, J., and Pearson, E. S., Phil. Trans. Roy. Soc., A, 231, 289 (1933).

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  2. For exposition and bibliography, see Peterson, W. W., Birdsall, T. G., and Fox, W. C., Trans. Inst. Radio Eng., PGIT-4, 171 (Sept. 1954), also Middleton, D., An Introduction to Statistical Communication Theory, Chap. 19 (McGraw-Hill, New York, 1960).

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  1. University of California, San Diego, Marine Physical Laboratory of the Scripps Institution of Oceanography, San Diego, 52, California

    PHILIP RUDNICK

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RUDNICK, P. A Signal-to-Noise Property of Binary Decisions. Nature 193, 604–605 (1962). https://doi.org/10.1038/193604a0

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