An Efficient Algorithm for High-Dimensional Log-Concave Maximum Likelihood

· 2018 · cs.DS · arXiv 1811.03204

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abstract

The log-concave maximum likelihood estimator (MLE) problem answers: for a set of points $X_1,...X_n \in \mathbb R^d$, which log-concave density maximizes their likelihood? We present a characterization of the log-concave MLE that leads to an algorithm with runtime $poly(n,d, \frac 1 \epsilon,r)$ to compute a log-concave distribution whose log-likelihood is at most $\epsilon$ less than that of the MLE, and $r$ is parameter of the problem that is bounded by the $\ell_2$ norm of the vector of log-likelihoods the MLE evaluated at $X_1,...,X_n$.

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A Polynomial Time Algorithm for Log-Concave Maximum Likelihood via Locally Exponential Families

cs.DS · 2019-07-18 · unverdicted · novelty 8.0

First poly(n,d,1/ε)-time algorithm for ε-approximate maximum-likelihood log-concave distribution estimation on n points in R^d.

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A Polynomial Time Algorithm for Log-Concave Maximum Likelihood via Locally Exponential Families cs.DS · 2019-07-18 · unverdicted · none · ref 4 · internal anchor
First poly(n,d,1/ε)-time algorithm for ε-approximate maximum-likelihood log-concave distribution estimation on n points in R^d.

An Efficient Algorithm for High-Dimensional Log-Concave Maximum Likelihood

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