Title :
Regularized Mixture Density Estimation With an Analytical Setting of Shrinkage Intensities
Author :
Halbe, Zohar ; Bortman, Maria ; Aladjem, Mayer
Author_Institution :
Dept. of Electr. & Comput. Eng., Ben-Gurion Univ. of the Negev, Beer-Sheva, Israel
Abstract :
In this paper, we propose a method for P-variate probability density estimation assuming a Gaussian mixture model (GMM). Our method exploits a regularization technique for improving the estimation accuracy of the GMM component covariance matrices. We derive an expectation maximization algorithm for fitting our regularized GMM (RGMM), which exploits an analytical Ledoit-Wolf-type shrinkage estimation of the covariance matrices. Our method is compared with recent model-based and variational Bayes approximation methods using synthetic and real data sets. The obtained results show that the proposed RGMM method achieves a significant improvement in the performance of multivariate probability density estimation with respect to other methods on both the synthetic and the real data sets.
Keywords :
Gaussian processes; approximation theory; covariance matrices; expectation-maximisation algorithm; pattern clustering; probability; Gaussian mixture model; P-variate probability density estimation; RGMM method; analytical Ledoit-Wolf-type shrinkage estimation; covariance matrices; estimation accuracy improvement; expectation maximization algorithm; model-based approximation method; multivariate probability density estimation; performance improvement; regularization technique; regularized GMM; regularized mixture density estimation; shrinkage intensities; Approximation methods; Computational modeling; Covariance matrix; Estimation; Reactive power; Training; Expectation maximization (EM) algorithm; Gaussian mixture model (GMM); model selection; multivariate density estimation; regularization; shrinkage estimation;
Journal_Title :
Neural Networks and Learning Systems, IEEE Transactions on
DOI :
10.1109/TNNLS.2012.2234477
