High Dimensional Inference In Partially Linear Models PDF Download
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| Author | : Ying Zhu |
| Publisher | : |
| Total Pages | : 31 |
| Release | : 2017 |
| Genre | : |
| ISBN | : |
Download High Dimensional Inference in Partially Linear Models Book in PDF, ePub and Kindle
We propose two semiparametric versions of the debiased Lasso procedure for the model $Y_{i}=X_{i} beta_{0} g_{0}(Z_{i}) varepsilon_{i}$, where the parameter vector of interest $ beta_{0}$ is high dimensional but sparse (exactly or approximately) and $g_{0}$ is an unknown nuisance function. Both versions are shown to have the same asymptotic normal distribution and do not require the minimal signal condition for statistical inference of any component in $ beta_{0}$. Our method also works when the vector of covariates $Z_{i}$ is high dimensional provided that the function classes $ mathbb{E}(X_{ij} vert Z_{i})$s and $ mathbb{E}(Y_{i} vert Z_{i})$ belong to exhibit certain sparsity features, e.g., a sparse additive decomposition structure. We further develop a simultaneous hypothesis testing procedure based on multiplier bootstrap. Our testing method automatically takes into account of the dependence structure within the debiased estimates, and allows the number of tested components to be exponentially high.
| Author | : Wolfgang Härdle |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 210 |
| Release | : 2012-12-06 |
| Genre | : Mathematics |
| ISBN | : 3642577008 |
Download Partially Linear Models Book in PDF, ePub and Kindle
In the last ten years, there has been increasing interest and activity in the general area of partially linear regression smoothing in statistics. Many methods and techniques have been proposed and studied. This monograph hopes to bring an up-to-date presentation of the state of the art of partially linear regression techniques. The emphasis is on methodologies rather than on the theory, with a particular focus on applications of partially linear regression techniques to various statistical problems. These problems include least squares regression, asymptotically efficient estimation, bootstrap resampling, censored data analysis, linear measurement error models, nonlinear measurement models, nonlinear and nonparametric time series models.
| Author | : Shijie Cui |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2022 |
| Genre | : |
| ISBN | : |
Download Statistical Inference for High Dimensional Models Book in PDF, ePub and Kindle
Statistical inference under high dimensional modelings has attracted much attention due to its wide applications in many fields. In this dissertation, I propose new methods for statistical inference in high dimensional models from three aspects: inference in high dimensional semiparametric models, inference in high dimensional matrix-valued data, and inference in high dimensional measurement error misspecified models. The first project studied statistical inference in high dimensional partially linear single index models. Firstly a profile partial penalized least squares estimator for parameter estimates for the model is proposed, and its asymptotic properties are given. Then an F-type test statistic for testing the parametric components is proposed, and its theoretical properties are established. I then propose a new test for the specification testing problem of the nonparametric components. Finally, simulation studies and empirical analysis of a real-world data set are conducted to illustrate the performance of the proposed testing procedure. The second project proposes new testing procedures in high dimensional matrix-valued data. Rank is an essential attribute for a matrix. A new type of statistic is proposed, which can make inferences on the rank of the matrix-valued data. I firstly give the theoretical property of its oracle version. To overcome the problem of empirical error accumulation, a new type of sparse SVD method is proposed, and its theoretical properties are given. Based on the newly proposed sparse SVD method, I provide a sample version statistic. Theoretical properties of this sample version statistic are given. Simulation studies and two applications to surveillance video data are provided to illustrate the performance of our newly proposed method. The third project proposes a new testing method in misspecified measurement error models. The testing method can work when there is potential model misspecification and measurement error in the model. Firstly its property is studied under the low dimensional setting. Then I develop it to the high dimensional setting. Further, I propose a method that can be adaptive to the sparsity level of the true parameters under the high dimensional setting. Simulation studies and one application to a clinical trial data set are given.
| Author | : Alexandre Belloni |
| Publisher | : |
| Total Pages | : |
| Release | : 2011 |
| Genre | : |
| ISBN | : |
Download Inference for High-dimensional Sparse Econometric Models Book in PDF, ePub and Kindle
This article is about estimation and inference methods for high dimensional sparse (HDS) regression models in econometrics. High dimensional sparse models arise in situations where many regressors (or series terms) are available and the regression function is well-approximated by a parsimonious, yet unknown set of regressors. The latter condition makes it possible to estimate the entire regression function effectively by searching for approximately the right set of regressors. We discuss methods for identifying this set of regressors and estimating their coefficients based on l1 -penalization and describe key theoretical results. In order to capture realistic practical situations, we expressly allow for imperfect selection of regressors and study the impact of this imperfect selection on estimation and inference results. We focus the main part of the article on the use of HDS models and methods in the instrumental variables model and the partially linear model. We present a set of novel inference results for these models and illustrate their use with applications to returns to schooling and growth regression. -- inference under imperfect model selection ; structural effects ; high-dimensional econometrics ; instrumental regression ; partially linear regression ; returns-to-schooling ; growth regression
| Author | : Zijian Guo |
| Publisher | : |
| Total Pages | : 472 |
| Release | : 2017 |
| Genre | : |
| ISBN | : |
Download Statistical Inference for High-Dimensional Linear Models Book in PDF, ePub and Kindle
High-dimensional linear models play an important role in the analysis of modern data sets. Although the estimation problem has been well understood, there is still a paucity of methods and theories on the inference problem for high-dimensional linear models. This thesis focuses on statistical inference for high-dimensional linear models and consists of the following three parts. 1. The first part of the thesis considers confidence intervals for linear functionals in high-dimensional linear regression. We first establish the convergence rates of the minimax expected length for confidence intervals. Furthermore, we investigate the problem of adaptation to sparsity for the construction of confidence intervals and identify the regimes in which it is possible to construct adaptive confidence intervals. 2. In the second part of the thesis, we consider point and interval estimation of the lq loss of a given estimator in high-dimensional linear regression. For the class of rate-optimal estimators, we establish the minimax rates for estimating their lq losses, the minimax expected length of confidence intervals for their lq losses and the possibility of adaptivity of confidence intervals for their lq losses. 3. In the third part of the thesis, we consider the problem in the framework of high-dimensional instrumental variable regression and construct confidence intervals for the treatment effect in the presence of possibly invalid instrumental variables. We develop a novel selection procedure, Two-Stage Hard Thresholding (TSHT) to select valid instrumental variables and construct honest confidence intervals for the treatment effect using the selected instrumental variables.
| Author | : Jiaqi Guo |
| Publisher | : |
| Total Pages | : 191 |
| Release | : 2018 |
| Genre | : |
| ISBN | : |
Download Inference for High-dimensional Left-censored Linear Model and High-dimensional Precision Matrix Book in PDF, ePub and Kindle
In the first two chapters, we consider inference for high-dimensional left-censored linear models. Left-censored data arises from measurement limits in scientific devices and social science data. We consider the problem of constructing confidence intervals for the parameters in left-censored linear models. In Chapter 1, we present smoothed estimating equations (SEE) and smoothed robust estimating equations(SREE) frameworks that are adaptive to censoring level and are more robust to misspecification of the error distribution. In Chapter 2, we study inference problem for parameters in high-dimensional left-censored quantile regression model. We modify the quantile loss to accommodate the left-censored nature of the problem, by extending the idea of redistribution of mass. Furthermore, applying the de-biasing technique to the initial estimator leads to an improved estimator suitable for high-dimensional inference under left-censored quantile regression setting. For both problems, asymptotic properties have been investigated. In Chapter 3, we devise a projection pursuit testing procedure for generalized hypotheses on high-dimensional precision matrix. We illustrate the procedure under specific examples of hypotheses: testing for row sparsity, minimum signal strength, bandedness and generalized bandedness. We demonstrate the performance of the testing procedure through extensive numerical experiments, and present the findings for two real datasets.
| Author | : Hao Chai |
| Publisher | : |
| Total Pages | : 81 |
| Release | : 2014 |
| Genre | : Confidence intervals |
| ISBN | : |
Download Statistical Inference in High Dimensional Linear and AFT Models Book in PDF, ePub and Kindle
Variable selection procedures for high dimensional data have been proposed and studied by a large amount of literature in the last few years. Most of the previous research focuses on the selection properties as well as the point estimation properties. In this paper, our goal is to construct the confidence intervals for some low-dimensional parameters in the high-dimensional setting. The models we study are the partially penalized linear and accelerated failure time models in the high-dimensional setting. In our model setup, all variables are split into two groups. The first group consists of a relatively small number of variables that are more interesting. The second group consists of a large amount of variables that can be potentially correlated with the response variable. We propose an approach that selects the variables from the second group and produces confidence intervals for the parameters in the first group. We show the sign consistency of the selection procedure and give a bound on the estimation error. Based on this result, we provide the sufficient conditions for the asymptotic normality of the low-dimensional parameters. The high-dimensional selection consistency and the low-dimensional asymptotic normality are developed for both linear and AFT models with high-dimensional data.
| Author | : Hongjin Zhang |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2023 |
| Genre | : Change-point problems |
| ISBN | : |
Download Inference on Structural Changes in High Dimensional Linear Regression Models Book in PDF, ePub and Kindle
This dissertation is dedicated to studying the problem of constructing asymptotically valid confidence intervals for change points in high-dimensional linear models, where the number of parameters may vastly exceed the sampling period.In Chapter 2, we develop an algorithmic estimator for a single change point and establish the optimal rate of estimation, Op(Îl 8́22 ), where Îl represents the jump size under a high dimensional scaling. The optimal result ensures the existence of limiting distributions. Asymptotic distributions are derived under both vanishing and non-vanishing regimes of jump size. In the former case, it corresponds to the argmax of a two-sided Brownian motion, while in the latter case to the argmax of a two-sided random walk, both with negative drifts. We also provide the relationship between the two distributions, which allows construction of regime (vanishing vs non-vanishing) adaptive confidence intervals.In Chapter 3, we extend our analysis to the statistical inference for multiple change points in high-dimensional linear regression models. We develop locally refitted estimators and evaluate their convergence rates both component-wise and simultaneously. Following similar manner as in Chapter 2, we achieve an optimal rate of estimation under the component-wise scenario, which guarantees the existence of limiting distributions. While we also establish the simultaneous rate which is the sharpest available by a logarithmic factor. Component-wise and joint limiting distributions are derived under vanishing and non-vanishing regimes of jump sizes, demonstrating the relationship between distributions in the two regimes.Lastly in Chapter 4, we introduce a novel implementation method for finding preliminary change points estimates via integer linear programming, which has not yet been explored in the current literature.Overall, this dissertation provides a comprehensive framework for inference on single and multiple change points in high-dimensional linear models, offering novel and efficient algorithms with strong theoretical guarantees. All theoretical results are supported by Monte Carlo simulations.
| Author | : Ye Alex Zhao |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2022 |
| Genre | : |
| ISBN | : |
Download Tests of Hypotheses on Regression Coefficients in High-Dimensional Regression Models Book in PDF, ePub and Kindle
Statistical inference in high-dimensional settings has become an important area of research due to the increased production of high-dimensional data in a wide variety of areas. However, few approaches towards simultaneous hypothesis testing of high-dimensional regression coefficients have been proposed. In the first project of this dissertation, we introduce a new method for simultaneous tests of the coefficients in a high-dimensional linear regression model. Our new test statistic is based on the sum-of-squares of the score function mean with an additional power-enhancement term. The asymptotic distribution and power of the test statistic are derived, and our procedure is shown to outperform existing approaches. We conduct Monte Carlo simulations to demonstrate performance improvements over existing methods and apply the testing procedure to a real data example. In the second project, we propose a test statistic for regression coefficients in a high-dimensional setting that applies for generalized linear models. Building on previous work on testing procedures for high-dimensional linear regression models, we extend this approach to create a new testing methodology for GLMs, with specific illustrations for the Poisson and logistic regression scenarios. The asymptotic distribution of the test statistic is established, and both simulation results and a real data analysis are conducted to illustrate the performance of our proposed method. The final project of this dissertation introduces two new approaches for testing high-dimensional regression coefficients in the partial linear model setting and more generally for linear hypothesis tests in linear models. Our proposed statistic is motivated by the profile least squares method and decorrelation score method for high-dimensional inference, which we show to be equivalent in these particular cases. We outline the empirical performance of the new test statistic with simulation studies and real data examples. These results indicate generally satisfactory performance under a wide range of settings and applicability to real world data problems.
| Author | : Yifeng He |
| Publisher | : |
| Total Pages | : |
| Release | : 2018 |
| Genre | : |
| ISBN | : |
Download Inference of High-dimensional Linear Models with Time-varying Coefficients Book in PDF, ePub and Kindle
