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Diffstat (limited to 'general.tex')
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diff --git a/general.tex b/general.tex index 530b8d3..12e01a5 100644 --- a/general.tex +++ b/general.tex @@ -57,19 +57,14 @@ For two reasons: For the function $\tilde{V}$ defined above, there is a truthful, budget feasible mechanism which achieves an approximation ratio of: \begin{displaymath} - \frac{5e-1}{e-1}\frac{\log(1+\mu)}{\mu} + A + \frac{5e-1}{e-1}\frac{2\mu}{\log(1+\mu)} + 5.1 \end{displaymath} -where $\mu$ is the smallest eigenvalue of $R$ (and $A$ is a constant that -I will compute tomorrow, it should be roughly around 10). +where $\mu$ is the smallest eigenvalue of $R$. \end{theorem} Note that everything becomes nice when $R \geq I_d$. In this case, the smallest eigenvalue is larger than 1. Hence $\log\det R\geq 0$ and an approximation on $\tilde{V}$ gives an approximation ration on $V$ (see discussion above). -Furthermore, we can bound $\log(1+\mu)/\mu$ by 1 and I think we fall back on -the approximation ratio of section 2. - -Can we motivate that $R\geq 1$ ? \subsection{Beyond Linear Models} TODO: Independent noise model. Captures models such as logistic regression, classification, etc. Arbitrary prior. Show that change in the entropy is submodular (cite Krause, Guestrin). |