Plasma parameter: Difference between revisions

Revision as of 17:23, 7 January 2014

Template:Lowercase 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 noise distribution. For normally distributed signal and noise with mean and standard deviations $μ_{S}$ and $σ_{S}$ , and $μ_{N}$ and $σ_{N}$ , respectively, d' is defined as:

d^{'} = \frac{μ_{S} - μ_{N}}{\sqrt{\frac{1}{2} (σ_{S}^{2} + σ_{N}^{2})}}

^[1]

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),^[2]

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

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

References

43 year old Petroleum Engineer Harry from Deep River, usually spends time with hobbies and interests like renting movies, property developers in singapore new condominium and vehicle racing. Constantly enjoys going to destinations like Camino Real de Tierra Adentro.

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'.

Template:Signal-processing-stub Template:Stat-stub

↑ Samuel Gale and David Perkel. A Basal Ganglia Pathway Drives Selective Auditory Responses in Songbird Dopaminergic Neurons via Disinhibition. The Journal of Neuroscience (2010). 30(3):1027–1037
↑ MacMillan N, Creelman C (2005) Detection Theory: A User’s Guide. Lawrence Erlbaum Associates. (p.7) Retrieved from: http://books.google.co.uk/books/about/Detection_Theory.html?id=hDX65v9bReYC

[1] Samuel Gale and David Perkel. A Basal Ganglia Pathway Drives Selective Auditory Responses in Songbird Dopaminergic Neurons via Disinhibition. The Journal of Neuroscience (2010). 30(3):1027–1037

[2] MacMillan N, Creelman C (2005) Detection Theory: A User’s Guide. Lawrence Erlbaum Associates. (p.7) Retrieved from: http://books.google.co.uk/books/about/Detection_Theory.html?id=hDX65v9bReYC

[1]

[2]

@@ Line 1: / Line 1: @@
-Nice to meet you, my name is Refugia. Bookkeeping is my profession. One of the very best things in the world for him is to collect badges but he is struggling to discover time for it. North Dakota is our beginning place.<br><br>My homepage :: [http://www.hamcass.org/index.php?document_srl=268708&mid=gido at home std test]
+{{lowercase|title=d'}}
+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 noise distribution. For [[Normal distribution|normally distributed]] signal and noise with mean and standard deviations <math>\mu_S</math> and <math>\sigma_S</math>, and <math>\mu_N</math> and <math>\sigma_N</math>, respectively, d' is defined as:
+: <math>d' = \frac{\mu_S - \mu_N}{\sqrt{\frac{1}{2}(\sigma_S^2 + \sigma_N^2)}}</math><ref>Samuel Gale and David Perkel. A Basal Ganglia Pathway Drives Selective Auditory Responses in Songbird Dopaminergic Neurons via Disinhibition. The Journal of Neuroscience (2010). 30(3):1027–1037</ref>
+An estimate of d' can be also found from measurements of the hit rate and [[False alarm|false-alarm]] rate. It is calculated as:
+::''d''' = ''Z''(hit rate) - ''Z''(false alarm rate),<ref>MacMillan N, Creelman C (2005) Detection Theory: A User’s Guide. Lawrence Erlbaum Associates. (p.7) Retrieved from: http://books.google.co.uk/books/about/Detection_Theory.html?id=hDX65v9bReYC</ref>
+where function ''Z''(''p''), ''p'' &isin; [0,1], is the inverse of the [[Normal distribution#Cumulative distribution function|cumulative Gaussian distribution]].
+''d' '' is a [[dimensionless]] statistic. A higher ''d''' indicates that the signal can be more readily detected.
+==See also==
+* [[Receiver Operating Characteristic]] (R.O.C.)
+* [[Summary Statistics]]
+==References==
+{{reflist}}
+* Wickens, Thomas D. (2001) ''Elementary Signal Detection Theory'', OUP USA. ISBN 0-19-509250-3 (Ch.2, p.20). [http://books.google.com/books?vid=ISBN0195092503&id=s3pGN_se4v0C&pg=PA22&lpg=PA22&dq=Thomas+D.+Wickens Excerpts]
+==External links==
+<!-- Please see [[Wikipedia:External links]] for guidelines on appropriate external links. -->
+*[http://wise.cgu.edu/sdtmod/index.asp  Interactive signal detection theory tutorial] including calculation of d'.
+[[Category:Detection theory]]
+[[Category:Signal processing]]
+[[Category:Summary statistics]]
+{{Signal-processing-stub}}
+{{stat-stub}}

Plasma parameter: Difference between revisions

Revision as of 17:23, 7 January 2014

See also

References

External links

Navigation menu

Search