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哈达玛空间中的稳健信号恢复

Robust signal recovery in Hadamard spaces

Journal of Multivariate Analysis · 2025
被引 0
ABS 3

中文导读

研究了哈达玛空间中大数定律在分布扰动下的稳定性,给出了归纳均值的二次均值集中不等式和强大数定律,并分析了数据污染下均值的稳健性。

Abstract

We analyze the stability of (strong) laws of large numbers in Hadamard spaces with respect to distributional perturbations. For the inductive means of a sequence of independent but not necessarily identically distributed random variables, we provide a concentration inequality in quadratic mean and a strong law of large numbers, generalizing a classical result of K.-T. Sturm. For the Fréchet mean, we generalize H. Ziezold’s law of large numbers in Hadamard spaces. In this case, we neither require our data to be independent nor identically distributed; reasonably mild conditions on the first two moments of our sample are enough. Additionally, we look at data contamination via a model inspired by Huber’s ɛ -contamination model, in which we replace a random portion of the data with noise. In the most general setup, we neither require the data nor the noise to be i.i.d., nor do we require the noise to be independent of the data. A resampling scheme is introduced to analyze the stability of the (non-symmetric) inductive mean with respect to data loss, data permutation, and noise, and sufficient conditions for its convergence are provided. These results suggest that means in Hadamard spaces are as robust as those in Euclidean spaces. This is underlined by a small simulation study in which we compare the robustness of means on the manifold of positive definite matrices with means on open books.

数学统计学信号处理稳健统计