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cumulative_distribution_function [2015/04/09 15:40] nikolaj |
cumulative_distribution_function [2015/04/09 16:14] nikolaj |
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>Any linear function of evaluated points are examples for $S$. | >Any linear function of evaluated points are examples for $S$. | ||
- | >So for ${\mathbb D}={\mathbb N}$ the general case is $Sf:=\sum_{n=0}^\infty b_n\cdot f(n)$, where $(b_n)$ is some suitable sequence. | + | >So for ${\mathbb D}={\mathbb N}$ the general case is $Sf:=\sum_{n=0}^\infty (L_nf)(n)$, where $(L_n)$ is a suitable sequence of linear operations (e.g. differential operators). |
>For ${\mathbb D}\subseteq{\mathbb R}^m$ we have integrals. | >For ${\mathbb D}\subseteq{\mathbb R}^m$ we have integrals. | ||
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