Title :
EM algorithm for an improved random intercept model
Author_Institution :
Sch. of Sci., Commun. Univ. of China, Beijing, China
Abstract :
Traditional multilevel model assumed independence between groups. Datasets are different from traditional hierarchical data when it is grouped by geographical units. The individual is influenced by not only its region but also the adjacent regions. It could include spatial dependence between groups. Therefore, it is necessary to build a new model and estimation method. In this paper, spatial statistics and spatial econometric models are introduced to random intercept model. Spatial dependence is reflected by spatial lag model in traditional level-2 model. Four types of parameters which include fixed effects, random level-1 coefficients, variance-covariance components, and spatial correlation error parameter need to estimate. Maximum likelihood estimation based on EM algorithm and Fisher scoring algorithm for improved random intercept model is employed.
Keywords :
data structures; geophysics computing; maximum likelihood estimation; EM algorithm; Fisher scoring algorithm; adjacent regions; fixed effects; geographical units; improved random intercept model; maximum likelihood estimation; multilevel structure data; random level-1 coefficients; spatial correlation error parameter; spatial dependence; spatial econometric models; spatial statistics; variance-covariance components; Biological system modeling; Correlation; Data models; Econometrics; Equations; Mathematical model; Maximum likelihood estimation; EM algorithm; Random intercept model; autocorrelation; fisher scoring algorithm;
Conference_Titel :
Signal Processing (ICSP), 2014 12th International Conference on
Conference_Location :
Hangzhou
Print_ISBN :
978-1-4799-2188-1
DOI :
10.1109/ICOSP.2014.7015410
