Level sets of depth measures in abstract spaces
Test, 2023•Springer
The lens depth of a point has been recently extended to general metric spaces, which is not
the case for most depths. It is defined as the probability of being included in the intersection
of two random balls centred at two random points X and Y, with the same radius d (X, Y). We
prove that, on a separable and complete metric space, the level sets of the empirical lens
depth based on an iid sample, converge in the Painlevé–Kuratowski sense, to its population
counterpart. We also prove that, restricted to compact sets, the empirical level sets and their …
the case for most depths. It is defined as the probability of being included in the intersection
of two random balls centred at two random points X and Y, with the same radius d (X, Y). We
prove that, on a separable and complete metric space, the level sets of the empirical lens
depth based on an iid sample, converge in the Painlevé–Kuratowski sense, to its population
counterpart. We also prove that, restricted to compact sets, the empirical level sets and their …
Abstract
The lens depth of a point has been recently extended to general metric spaces, which is not the case for most depths. It is defined as the probability of being included in the intersection of two random balls centred at two random points X and Y, with the same radius d(X, Y). We prove that, on a separable and complete metric space, the level sets of the empirical lens depth based on an iid sample, converge in the Painlevé–Kuratowski sense, to its population counterpart. We also prove that, restricted to compact sets, the empirical level sets and their boundaries are consistent estimators, in Hausdorff distance, of their population counterparts, and analyse two real-life examples.
Springer
以上显示的是最相近的搜索结果。 查看全部搜索结果