Statistics: Difference between revisions

From CIRPwiki

Revision as of 18:07, 6 December 2010

Given the observed values x and calculated values y, there are several goodness of fit statistics or skill scores which can be calculated. The definition for some of the more common ones are provided below.

Brier Skill Score

BSS(x,y)=1-{\frac {{\bigg \langle }{\big (}x-y{\big )}^{2}{\bigg \rangle }}{{\bigg \langle }{\big (}x-x_{0}{\big )}^{2}{\bigg \rangle }}}

(1)

Root-Mean-Squared Error is defined as

RMSE(x,y)={\sqrt {{\bigg \langle }{\big (}x-y{\big )}^{2}{\bigg \rangle }}}

(2)

Relative-Root-Mean-Squared Error

RRMSE(x,y,x_{0})=RMSE(x,y)/RMSE(x,x0)

(3)

Relative-Root-Mean-Squared Error Score

RMSES(x,y,x_{0}=1-RRMSE(x,y,x_{0})

(4)

Relative-Mean-Absolute Error

RMAE(x,y)={\frac {{\bigg \langle }{\big |}x-y{\big |}{\bigg \rangle }}{{\big |}x{\big |}}}

(5)

Relative-Mean-Absolute Error Score

RMAES(x,y,x_{0})=RMAE(x,y)/RMAE(x,x_{0})

(6)

Correlation coefficient is defined as

R={\frac {\langle xy\rangle -\langle x\rangle \langle y\rangle }{{\sqrt {\langle x^{2}\rangle -\langle x\rangle ^{2}}}{\sqrt {\langle y^{2}\rangle -\langle y\rangle ^{2}}}}}

(7)

The bias is given by

B=\langle x\rangle -\langle y\rangle

(8)

Documentation Portal

Retrieved from "https://cirpwiki.info/index.php?title=Statistics&oldid=4914"

@@ Line 1: / Line 1: @@
 Given the observed values x and calculated values y, there are several goodness of fit statistics or skill scores which can be calculated. The definition for some of the more common ones are provided below.
-Brier Skill Score
+*Brier Skill Score
-{{Equation|<math> BSS = 1 - \frac{\bigg\langle \big(x-y\big)^2 \bigg\rangle}{\bigg\langle \big(x-x_0\big)^2 \bigg\rangle } </math>|2=1}}
+{{Equation|<math> BSS(x,y) = 1 - \frac{\bigg\langle \big(x-y\big)^2 \bigg\rangle}{\bigg\langle \big(x-x_0\big)^2 \bigg\rangle } </math>|2=1}}
-The Root-Mean-Squared Error is defined as
+*Root-Mean-Squared Error is defined as
-{{Equation|<math> RMSE = \sqrt{ \bigg\langle \big(  x - y  \big)^2  \bigg\rangle  } </math>|2=2}}
+{{Equation|<math> RMSE(x,y) = \sqrt{ \bigg\langle \big(  x - y  \big)^2  \bigg\rangle  } </math>|2=2}}
-The Relative-Mean-Absolute Error is defined as
+*Relative-Root-Mean-Squared Error
-{{Equation|<math> RMAE =  \frac { \bigg\langle \big|  x - y  \big|  \bigg\rangle }{ \big| x \big| }  </math>|2=3}}
+{{Equation|<math>  RRMSE(x,y,x_0) = RMSE(x,y)/RMSE(x,x0) </math>|2=3}}
-The correlation coefficient is defined as
+*Relative-Root-Mean-Squared Error Score
-{{Equation|<math>  R = \frac { \langle xy \rangle - \langle x \rangle \langle y \rangle  }{ \sqrt{ \langle x^2 \rangle - \langle x \rangle ^2} \sqrt{ \langle y^2 \rangle - \langle y \rangle ^2} }  </math>|2=4}}
+{{Equation|<math> RMSES(x,y,x_0 = 1-RRMSE(x,y,x_0)  </math>|2=4}}
+*Relative-Mean-Absolute Error
+{{Equation|<math> RMAE(x,y) =  \frac { \bigg\langle \big| x - y \big|  \bigg\rangle }{ \big| x \big| }  </math>|2=5}}
+*Relative-Mean-Absolute Error Score
+{{Equation|<math> RMAES(x,y,x_0) = RMAE(x,y)/RMAE(x,x_0) </math>|2=6}}
+*Correlation coefficient is defined as
+{{Equation|<math>  R = \frac { \langle xy \rangle - \langle x \rangle \langle y \rangle  }{ \sqrt{ \langle x^2 \rangle - \langle x \rangle ^2} \sqrt{ \langle y^2 \rangle - \langle y \rangle ^2} }  </math>|2=7}}
 The bias is given by
-{{Equation|<math>  B =  \langle x \rangle - \langle y  \rangle  </math>|2=5}}
+{{Equation|<math>  B =  \langle x \rangle - \langle y  \rangle  </math>|2=8}}
 ----
 [[CMS#Documentation_Portal | Documentation Portal]]

Statistics: Difference between revisions

Revision as of 18:07, 6 December 2010

Navigation menu

Search