High-Dimensional Spatial Autoregression with Latent Factors by Diversified Projections

Jiaxin Shi Speaker
Peking University
 
Xuening Zhu Co-Author
Fudan University
 
Jing Zhou Co-Author
Renmin University of China
 
Baichen Yu Co-Author
Peking University
 
Hansheng Wang Co-Author
Peking University
 
Tuesday, Aug 4: 4:35 PM - 4:50 PM
1843 
Contributed Papers 
Thomas M. Menino Convention & Exhibition Center 
We study one particular type of multivariate spatial autoregression (MSAR) model with diverging dimensions in both responses and covariates. This makes the usual MSAR models no longer applicable due to the high computational cost. To address this issue, we propose a factor-augmented spatial autoregression (FSAR) model. FSAR is a special case of MSAR but with a novel factor structure imposed on the high-dimensional random error vector. The latent factors of FSAR are assumed to be of a fixed dimension. Therefore, they can be estimated consistently by the diversified projections method, as long as the dimension of the multivariate response is diverging. Once the fixed-dimensional latent factors are consistently estimated, they are then fed back into the original SAR model and serve as exogenous covariates. This leads to a novel FSAR model. Thereafter, different components of the high-dimensional response can be modeled separately. To handle the high-dimensional feature, a smoothly clipped absolute deviation (SCAD) type penalized estimator is developed for each response component. We show theoretically that the resulting SCAD estimator is uniformly selection consistent, as long as the tuning parameter is selected appropriately. For practical selection of the tuning parameter, a novel BIC method is developed. Extensive numerical studies are conducted to demonstrate the finite sample performance of the proposed method.

Keywords

Diversified Projections

Factor-Augmented Maximum Likelihood Estimator

High-Dimensional Spatial Data

Latent Factor Model 

Main Sponsor

Business and Economic Statistics Section