Showing total 5 results

1. Generalized autocovariance matrices for multivariate time series.

Author

Cavicchioli, Maddalena

Subjects

*DENSITY matrices, *STOCHASTIC processes, *ASYMPTOTIC distribution, *STATIONARY processes, *MATRICES (Mathematics), *DISCRIMINANT analysis

Abstract

The paper treats the modeling of stationary multivariate stochastic processes via frequency domain, and extends the notion of generalized autocovariance function, given by Proietti and Luati (2015) for univariate time series, to the multivariate setting. The generalized autocovariance matrices are defined for stationary multivariate stochastic processes as the Fourier transform of the power transformation of the spectral density matrix. Then we prove the consistency and derive the asymptotic distribution of frequency domain non-parametric estimators of the generalized autocovariance matrices, based on the power transformation of the periodogram matrix. Generalized autocovariance matrices are used to construct white noise hypothesis testing, to discriminate stochastic processes, and to introduce a generalized Yule–Walker estimator for the spectrum. A so-called λ–squared distance between two multivariate stochastic processes is also defined by using their generalized autocovariance matrices, and it serves for clustering time series and estimation by feature matching. Another use is in discriminant analysis. [ABSTRACT FROM AUTHOR]

Published

2024

2. A new RCAR(1) model based on explanatory variables and observations.

Author

Sheng, Danshu, Wang, Dehui, and Kang, Yao

Subjects

*QUANTILE regression, *ASYMPTOTIC normality, *RANDOM variables, *TIME series analysis, *MAXIMUM likelihood statistics, *ASYMPTOTIC distribution

Abstract

The random coefficient autoregressive (RCAR) processes are very useful to model time series in applications. It is commonly observed that the random autoregressive coefficient is assumed to be an independent identically distributed (i.i.d.) random variable sequence. To make the RCAR model more practical, this paper considers a new RCAR(1) model driven by explanatory variable and observations. We use the conditional least squares, the quantile regression and the conditional maximum likelihood methods to estimate the model parameters. The consistency and asymptotic normality of the proposed estimates are established. Simulation studies are conducted for the evaluation of the developed approaches and two applications to real-data examples are provided. The results show that the proposed procedures perform well for the simulations and application. [ABSTRACT FROM AUTHOR]

Published

2024

3. On tail behavior of randomly weighted sums of dependent subexponential random variables.

Author

Geng, Bingzhen, Liu, Zaiming, and Wang, Shijie

Subjects

*RANDOM variables, *ASYMPTOTIC distribution, *DEPENDENT variables

Abstract

In this paper, we revisit the tail behavior of randomly weighted sums and their maxima of dependent subexponential random variables, in which the primary random variables X 1 , ... , X n are real-valued and dependent following two general dependence structures, respectively, and the random weights θ 1 , ... , θ n are another n positive and arbitrarily dependent random variables, but independent of X 1 , ... , X n.. Under some technical conditions, we derive some asymptotic formulas for the tail probability of the randomly weighted sums and their maxima, which coincide with some existing ones in the literature. The merit of our results is that unbounded supports for the random weights are allowed and the distributions of primary random variables can be different. [ABSTRACT FROM AUTHOR]

Published

2024

4. Jackknife empirical likelihood for the mean of a zero-and-one inflated population.

Author

Tian, Weizhong, Liu, Tingting, and Ning, Wei

Subjects

*ASYMPTOTIC distribution, *SKEWNESS (Probability theory), *STATISTICS, *PROBABILITY theory

Abstract

In many statistical analysis, a finite population may contain a large proportion of zero-and-one values that make the population distribution severely skew. Confidence intervals based on a normal approximation (NA) for such data may have low coverage probabilities. In this paper, we apply the methods of jackknife empirical likelihood (JEL) and adjusted jackknife empirical likelihood (AJEL) to discuss the confidence intervals for the mean of zero-and-one inflated population. Asymptotic distributions of the likelihood-type statistics are studied. Simulations are conducted to compare coverage probabilities with other methods under different distributions. Real data is given to illustrate the procedure of proposed methods. [ABSTRACT FROM AUTHOR]

Published

2024

5. Empirical likelihood in single-index partially functional linear model with missing observations.

Author

Hu, Yan-Ping and Liang, Han-Ying

Subjects

*ASYMPTOTIC distribution

Abstract

In this paper, we focus on the empirical likelihood in the single-index partially functional linear model. When the response variables or/and part of the covariates are missing at random, we construct the empirical likelihood ratio of the parameter in the model based on B-spline approximation for the link and slope functions, and define maximum empirical likelihood (MEL) estimator of the parameter. Under suitable assumptions, the asymptotic distributions of the proposed empirical log-likelihood ratio and MEL estimator are established. At the same time, based on penalized empirical likelihood (PEL) approach, we define the PEL estimator of the parameter and investigate variable selection of the model. A simulation study is done to evaluate the finite sample performance for the proposed methods. [ABSTRACT FROM AUTHOR]

Published

2024