scholarly journals Covariance Matrix Regularization for Banded Toeplitz Structure via Frobenius-Norm Discrepancy

2019 ◽  
pp. 111-125
Author(s):  
Xiangzhao Cui ◽  
Zhenyang Li ◽  
Jine Zhao ◽  
Defei Zhang ◽  
Jianxin Pan
Keyword(s):  
Covariance Matrix ◽  
Frobenius Norm ◽  
Toeplitz Structure ◽  
Matrix Regularization

scholarly journals MEG beamforming using Bayesian PCA for adaptive data covariance matrix regularization

NeuroImage ◽  
2011 ◽  
Vol 57 (4) ◽  
pp. 1466-1479 ◽  
Author(s):  
Mark Woolrich ◽  
Laurence Hunt ◽  
Adrian Groves ◽  
Gareth Barnes
Keyword(s):  
Covariance Matrix ◽  
Matrix Regularization

LARGE SYSTEM OF SEEMINGLY UNRELATED REGRESSIONS: A PENALIZED QUASI-MAXIMUM LIKELIHOOD ESTIMATION PERSPECTIVE

2019 ◽  
Vol 36 (3) ◽  
pp. 526-558
Author(s):  
Qingliang Fan ◽  
Xiao Han ◽  
Guangming Pan ◽  
Bibo Jiang
Keyword(s):  
Maximum Likelihood ◽  
Sample Size ◽  
Covariance Matrix ◽  
Large System ◽  
Seemingly Unrelated Regression ◽  
Frobenius Norm ◽  
Error Covariance Matrix ◽  
Error Covariance ◽  
Model Selection Consistency ◽  
Quasi Maximum Likelihood

In this article, using a shrinkage estimator, we propose a penalized quasi-maximum likelihood estimator (PQMLE) to estimate a large system of equations in seemingly unrelated regression models, where the number of equations is large relative to the sample size. We develop the asymptotic properties of the PQMLE for both the error covariance matrix and model coefficients. In particular, we derive the asymptotic distribution of the coefficient estimator and the convergence rate of the estimated covariance matrix in terms of the Frobenius norm. The model selection consistency of the covariance matrix estimator is also established. Simulation results show that when the number of equations is large relative to the sample size and the error covariance matrix is sparse, the PQMLE outperforms other contemporary estimators.

scholarly journals Gridless DOA Estimation for Minimum-Redundancy Linear Array in Nonuniform Noise

2020 ◽  
Vol 2020 ◽  
pp. 1-8
Author(s):  
Changyun Qi ◽  
Gong Zhang ◽  
Jiawen Yuan
Keyword(s):  
Covariance Matrix ◽  
Linear Array ◽  
Estimation Method ◽  
Doa Estimation ◽  
Residual Energy ◽  
Estimation Accuracy ◽  
Two Stages ◽  
Signal Covariance Matrix ◽  
Toeplitz Structure ◽  
True Signal

A gridless direction-of-arrival (DOA) estimation method to improve the estimation accuracy and resolution in nonuniform noise is proposed in this paper. This algorithm adopts the structure of minimum-redundancy linear array (MRA) and can be composed of two stages. In the first stage, by minimizing the rank of the covariance matrix of the true signal, the covariance matrix that filters out nonuniform noise is obtained, and then a gridless residual energy constraint scheme is designed to reconstruct the signal covariance matrix of the Hermitian Toeplitz structure. Finally, the unknown DOAs can be determined from the recovered covariance matrix, and the number of sources can be acquired as a byproduct. The proposed algorithm can be regarded as a gridless version method based on sparsity. Simulation results indicate that the proposed method has higher estimation accuracy and resolution compared with existing algorithms.

scholarly journals Knowledge-Aided Structured Covariance Matrix Estimator Applied for Radar Sensor Signal Detection

Sensors ◽  
2019 ◽  
Vol 19 (3) ◽  
pp. 664 ◽  
Author(s):  
Naixin Kang ◽  
Zheran Shang ◽  
Qinglei Du
Keyword(s):  
Signal Detection ◽  
Covariance Matrix ◽  
Secondary Data ◽  
Estimation Accuracy ◽  
Sensor Signal ◽  
Radar Sensor ◽  
Matrix Estimation ◽  
Symmetric Structure ◽  
Covariance Estimator ◽  
Toeplitz Structure

This study deals with the problem of covariance matrix estimation for radar sensor signal detection applications with insufficient secondary data in non-Gaussian clutter. According to the Euclidean mean, the authors combined an available prior covariance matrix with the persymmetric structure covariance estimator, symmetric structure covariance estimator, and Toeplitz structure covariance estimator, respectively, to derive three knowledge-aided structured covariance estimators. At the analysis stage, the authors assess the performance of the proposed estimators in estimation accuracy and detection probability. The analysis is conducted both on the simulated data and real sea clutter data collected by the IPIX radar sensor system. The results show that the knowledge-aided Toeplitz structure covariance estimator (KA-T) has the best performance both in estimation and detection, and the knowledge-aided persymmetric structure covariance estimator (KA-P) has similar performance with the knowledge-aided symmetric structure covariance estimator (KA-S). Moreover, compared with existing knowledge-aided estimator, the proposed estimators can obtain better performance when secondary data are insufficient.

scholarly journals Regularization for high-dimensional covariance matrix

2016 ◽  
Vol 4 (1) ◽  
Author(s):  
Xiangzhao Cui ◽  
Chun Li ◽  
Jine Zhao ◽  
Li Zeng ◽  
Defei Zhang ◽  
...  
Keyword(s):  
Covariance Matrix ◽  
Regularization Method ◽  
Moving Average ◽  
Covariance Structure ◽  
Real Data ◽  
High Dimensional ◽  
Underlying Structure ◽  
Frobenius Norm ◽  
Simulation Studies ◽  
Sample Covariance

AbstractIn many applications, high-dimensional problem may occur often for various reasons, for example, when the number of variables under consideration is much bigger than the sample size, i.e., p >> n. For highdimensional data, the underlying structures of certain covariance matrix estimates are usually blurred due to substantial random noises, which is an obstacle to draw statistical inferences. In this paper, we propose a method to identify the underlying covariance structure by regularizing a given/estimated covariance matrix so that the noises can be filtered. By choosing an optimal structure from a class of candidate structures for the covariance matrix, the regularization is made in terms of minimizing Frobenius-norm discrepancy. The candidate class considered here includes the structures of order-1 moving average, compound symmetry, order-1 autoregressive and order-1 autoregressive moving average. Very intensive simulation studies are conducted to assess the performance of the proposed regularization method for very high-dimensional covariance problem. The simulation studies also show that the sample covariance matrix, although performs very badly in covariance estimation for high-dimensional data, can be used to correctly identify the underlying structure of the covariance matrix. The approach is also applied to real data analysis, which shows that the proposed regularization method works well in practice.

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