Sensitivity index

The sensitivity index or d' (pronounced 'dee-prime') is a statistic used in signal detection theory. It provides the separation between the means of the signal and the noise distributions, compared against the standard deviation of the signal or noise distribution. For normally distributed signal and noise with mean and standard deviations $\mu _{S}$ and $\sigma _{S}$ , and $\mu _{N}$ and $\sigma _{N}$ , respectively, d' is defined as:

d'={\frac {\mu _{S}-\mu _{N}}{\sqrt {{\frac {1}{2}}(\sigma _{S}^{2}+\sigma _{N}^{2})}}}

^[1]

Note that by convention, d' assumes that the standard deviations for signal and noise are equal. An estimate of d' can be also found from measurements of the hit rate and false-alarm rate. It is calculated as:

d' = Z(hit rate) − Z(false alarm rate),^[1]^:7

where function Z(p), p ∈ [0,1], is the inverse of the cumulative distribution function of the Gaussian distribution.

d' can be related to the Area Under the Receiver operating characteristic Curve, or AUC, via

d'={\sqrt {2}}Z({\mbox{AUC}}).

^[1]^:63

d' is a dimensionless statistic. A higher d' indicates that the signal can be more readily detected.

References

1 2 3 MacMillan N, Creelman C (2005) Detection Theory: A User’s Guide. Lawrence Erlbaum Associates.

Wickens, Thomas D. (2001) Elementary Signal Detection Theory, OUP USA. ISBN 0-19-509250-3 (Ch. 2, p. 20). Excerpts

External links

Interactive signal detection theory tutorial including calculation of d'.

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[MandC-1] 1 2 3 MacMillan N, Creelman C (2005) Detection Theory: A User’s Guide. Lawrence Erlbaum Associates.

Sensitivity index

See also

References

External links