Linearized maximum rank correlation estimation when covariates are functional

IF 1.4 3区 数学 Q2 STATISTICS & PROBABILITY Journal of Multivariate Analysis Pub Date : 2024-02-24 DOI:10.1016/j.jmva.2024.105301
Wenchao Xu , Xinyu Zhang , Hua Liang
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Abstract

This paper extends the linearized maximum rank correlation (LMRC) estimation proposed by Shen et al. (2023) to the setting where the covariate is a function. However, this extension is nontrivial due to the difficulty of inverting the covariance operator, which may raise the ill-posed inverse problem, for which we integrate the functional principal component analysis to the LMRC procedure. The proposed estimator is robust to outliers in response and computationally efficient. We establish the rate of convergence of the proposed estimator, which is minimax optimal under certain smoothness assumptions. Furthermore, we extend the proposed estimation procedure to handle discretely observed functional covariates, including both sparse and dense sampling designs, and establish the corresponding rate of convergence. Simulation studies demonstrate that the proposed estimators outperform the other existing methods for some examples. Finally, we apply our method to a real data to illustrate its usefulness.

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协变量为函数时的线性化最大秩相关估计
本文将 Shen 等人(2023 年)提出的线性化最大秩相关(LMRC)估计扩展到协方差是函数的情况。然而,由于难以反演协方差算子,这一扩展并非易事,这可能会引起难以解决的逆问题,为此我们将函数主成分分析整合到 LMRC 程序中。所提出的估计器对响应中的异常值具有鲁棒性,而且计算效率高。我们确定了所提估计器的收敛率,在某些平稳性假设条件下,它是最小最优的。此外,我们还扩展了提议的估计程序,以处理离散观测的函数协变量,包括稀疏和密集采样设计,并确定了相应的收敛率。模拟研究表明,在某些例子中,所提出的估计方法优于其他现有方法。最后,我们将我们的方法应用于真实数据,以说明其实用性。
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来源期刊
Journal of Multivariate Analysis
Journal of Multivariate Analysis 数学-统计学与概率论
CiteScore
2.40
自引率
25.00%
发文量
108
审稿时长
74 days
期刊介绍: Founded in 1971, the Journal of Multivariate Analysis (JMVA) is the central venue for the publication of new, relevant methodology and particularly innovative applications pertaining to the analysis and interpretation of multidimensional data. The journal welcomes contributions to all aspects of multivariate data analysis and modeling, including cluster analysis, discriminant analysis, factor analysis, and multidimensional continuous or discrete distribution theory. Topics of current interest include, but are not limited to, inferential aspects of Copula modeling Functional data analysis Graphical modeling High-dimensional data analysis Image analysis Multivariate extreme-value theory Sparse modeling Spatial statistics.
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