Alternative Equation Formats

The equation on this page is available in multiple formats. Depending on your browser, some formats might not render correctly.

MathML

π h i = a ( γ h ) γ h i = j ( i ) j = j 1 j m h exp ( γ h j ) j = j 1 j m h exp ( γ h j ) π h = ( π h 1 , , π h n h ) U h = 2 a ( γ h ) γ h 2 = { 2 a ( γ h ) γ h i γ h j } = { a i j } a i j = k ( i , j ) k = k 1 k m h exp ( γ h k ) k = k 1 k m h exp ( γ h k ) a ( γ h ) γ h i a ( γ h ) γ h j = π h i j π h i π h j

Math Rendered as SVG

Math as LaTeX Source

\begin{eqnarray*} \pi _{hi} & =& \frac{\partial a(\bgamma _ h)}{\partial \gamma _{hi}} = \frac{\sum _{{j(i)}}\prod _{j=j_1}^{j_{m_ h}}\exp (\gamma _{hj})}{\sum \prod _{j=j_1}^{j_{m_ h}}\exp (\gamma _{hj})} \\ \bpi _ h & =& (\pi _{h1},\ldots ,\pi _{hn_ h}) \\ \bU _ h & =& \frac{\partial ^2 a(\bgamma _ h)}{\partial \bgamma _ h^2} = \left\{ \frac{\partial ^2\mb{a}(\bgamma _ h)}{\partial \gamma _{hi}\partial \gamma _{hj}}\right\} = \{ a_{ij}\} \\ a_{ij} & =& \frac{\sum _{{k(i,j)}}\prod _{k=k_1}^{k_{m_ h}}\exp (\gamma _{hk})}{\sum \prod _{k=k_1}^{k_{m_ h}}\exp (\gamma _{hk})} - \frac{\partial a(\bgamma _ h)}{\partial \gamma _{hi}}\frac{\partial a(\bgamma _ h)}{\partial \gamma _{hj}} = \pi _{hij} - \pi _{hi}\pi _{hj} \end{eqnarray*}
Copyright © SAS Institute Inc. All rights reserved.