Forskjell mellom versjoner av «CorrelationMatrix»
Fra mn/fys/epf
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− | The covariance matrix is <br> <math>C_{ij} = <(x_i-\bar{x_i})(x_j-\bar{x_j})></math>.<br> Suppose <math>\delta_1,\ \delta_2,\ \delta_3</math> are three independent sources of normally-distributed unit fluctuations (with <span class="texhtml"> < δ<sub>''i''</sub> > = 0</span> and <span class="texhtml"> < δ<sub>''i''</sub> * δ<sub>''j''</sub> > = δ<sub> | + | The covariance matrix is <br> <math>C_{ij} = <(x_i-\bar{x_i})(x_j-\bar{x_j})></math>.<br> Suppose <math>\delta_1,\ \delta_2,\ \delta_3</math> are three independent sources of normally-distributed unit fluctuations (with <span class="texhtml"> < δ<sub>''i''</sub> > = 0</span> and <span class="texhtml"> < δ<sub>''i''</sub> * δ<sub>''j''</sub> > = δ<sub>ij</sub></span> |
and where <math>\delta_{ij}</math> is the kronikker delta function (1 for <math>i=j</math> and zero for <math>i\neq j</math>). | and where <math>\delta_{ij}</math> is the kronikker delta function (1 for <math>i=j</math> and zero for <math>i\neq j</math>). | ||
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Expanding the covariance matrix one finds <math>C_{ij}=<x_i*x_j>-\bar{x_i}\bar{x_j}</math>.<br> | Expanding the covariance matrix one finds <math>C_{ij}=<x_i*x_j>-\bar{x_i}\bar{x_j}</math>.<br> | ||
− | Using the properties of <math><\delta_i*\delta_j></math> above and <math><x_i>=\bar{x_i}</math>, one finds | + | Using the properties of <math><\delta_i*\delta_j></math> above and <math><x_i>=\bar{x_i}</math>, one finds <math><x_1*x_2> = x_{10}*x_{20}+\beta*\lambda</math>; so that <span class="texhtml">''C''<sub>12</sub> = ''C''<sub>21</sub> = β * λ</span>. Similar substitution gives for the diagonal matrix elements |
<br> | <br> | ||
− | <math>C_{11}=x_{10}^2+\alpha^2+\beta^2-x_{10}^2</math><br> and <br> <math>C_{22}=x_{20}^2+\gamma^2+\lambda^2-x_{ | + | <math>C_{11}=x_{10}^2+\alpha^2+\beta^2-x_{10}^2</math><br> and <br> <math>C_{22}=x_{20}^2+\gamma^2+\lambda^2-x_{20}^2</math> |
− | so that C= | + | <br> |
+ | so that | ||
+ | C= | ||
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Nåværende revisjon fra 25. mar. 2011 kl. 23:34
The covariance matrix is
.
Suppose are three independent sources of normally-distributed unit fluctuations (with < δi > = 0 and < δi * δj > = δij
and where is the kronikker delta function (1 for and zero for ).
Pseudo-measurements of (x1,x2) can be generated from the expressions (x1,x2) = (x10 + α * δ1 + β * δ2,x20 + γ * δ3 + λ * δ2).
Expanding the covariance matrix one finds
Using the properties of C12 = C21 = β * λ. Similar substitution gives for the diagonal matrix elements
and
so that
C=
α2 + β2 | β * λ |